Pressure Sensors, Transducers

Part Number	Description / PDF	Quantity
0.3 PSI-GF-CGRADE-MINI Amphenol	SENSOR 0.3PSI GF MV MONO	0
ELVH-F50D-HRRD-C-N2A5 Amphenol	ELVH 0.5 INH2O DIFF RR LID DIP C	0
ELVH-B001D-HNND-C-NAA4 Amphenol	ELVH 1 BAR DIFF NN LID DIP COMME	0
100 PSI-G-DO-MIL Amphenol	SENSOR 100PSIG DO DUAL	0
ELVH-L01G-HRND-I-NAB4 Amphenol	ELVH 1 INH2O GAGE RN LID DIP IND	0
30 PSI-G-DO Amphenol	SENSOR 30PSIG DO DUAL	0
MLDX-L10D-DX01-P Amphenol	MLDX SDX 10 INCH W/PARYLENE	20
0.3 PSI-GF-PRIME-MINI Amphenol	SENSOR 0.3PSI GF MV MONO	0
ELVH-F50D-HRRD-C-N2A4 Amphenol	ELVH 0.5 INH2O DIFF RR LID DIP C	0
5 PSI-D-PRIME-MINI Amphenol	SENSOR 5PSID MV DUAL	0
15 PSI-D-HGRADE-MINI Amphenol	SENSOR 15PSID MV DUAL	0
MLDX-001D-DX01-N Amphenol	MLDX SDX 1 PSID	10
MLDX-001D-DX01-P Amphenol	MLDX SDX 1 PSID WPARYLENE	0
15 PSI-AF-PRIME-MINI Amphenol	SENSOR 15PSI AF MV MONO	0
30 INCH-D-DO Amphenol	SENSOR PRESS DIFF 30" H2O 6SIP	0
ELVH-L01D-HRRJ-C-N2A5 Amphenol	ELVH 1 INH2O DIFF RR LID SMT COM	0
15 PSI-GF-CGRADE-MINI Amphenol	SENSOR 15PSI GF MV MONO	0
15 PSI-GF-PRIME-MINI Amphenol	SENSOR 15PSI GF MV MONO	0
MLDX-015A-DX01-P Amphenol	MLDX SDX 15 PSIA WPARYLENE	0
ELVH-L01D-HRRJ-C-N2A4 Amphenol	ELVH 1 INH2O DIFF RR LID SMT COM	0

Pressure Sensors, Transducers

1. Overview

Pressure sensors and transducers are devices that convert mechanical pressure signals into electrical outputs. They serve as critical components in monitoring and controlling pressure in various systems. Modern industrial automation, medical diagnostics, and automotive safety systems rely on their precise measurements to ensure operational efficiency and safety.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Strain Gauge	High accuracy, stable output, requires bridge circuit	Industrial machinery, load cells
Piezoresistive	Miniaturized design, high sensitivity, temperature-dependent	Medical blood pressure monitors
Capacitive	Low power consumption, corrosion-resistant, nonlinear output	Aerospace altitude sensors
Piezoelectric	Self-generating, dynamic pressure measurement	Engine combustion analysis
Optical Fiber	Immune to EMI, suitable for harsh environments	Oil well downhole monitoring

3. Structure and Components

Typical components include:

Pressure port (stainless steel/ceramic diaphragm)
Sensing element (MEMS silicon chip, strain gauge)
Signal conditioning circuit (amplifier, ADC)
Output interface (4-20mA, I2C, CANbus)
Environmental sealing (IP67 rating standard)

4. Key Technical Specifications

Parameter	Importance
Measurement Range (0-10kPa to 0-100MPa)	Determines operational limits
Accuracy ( 0.1% FS to 2% FS)	Impacts system reliability
Output Signal (Analog/digital)	Affects compatibility with control systems
Temperature Range (-40 C to +150 C)	Defines environmental adaptability
Response Time (1ms to 100ms)	Critical for dynamic pressure monitoring

5. Application Fields

Major industries:

Industrial Automation (hydraulic system monitoring)
Automotive (engine MAP sensors, TPMS)
Medical (ventilator pressure control)
Aerospace (flight control surface pressure)
Consumer Electronics (smartwatches for altitude tracking)

6. Leading Manufacturers and Products

Manufacturer	Representative Product
Honeywell	PPT0010 (0-10psi MEMS sensor)
Bosch Sensortec	BMP580 (barometric pressure sensor)
TE Connectivity	PPT0001NN1A3 (high-temperature sensor)
WIKA	A-1100.75 (industrial process sensor)
Omron	D6F-PH (low-pressure airflow sensor)

7. Selection Guidelines

Key considerations:

Pressure range with 20% safety margin
Environmental factors (temperature, vibration)
Signal compatibility (analog/digital requirements)
Material selection for corrosive environments
Cost vs. long-term stability trade-offs

8. Industry Trends

Emerging developments:

MEMS integration for miniaturization
Wireless pressure sensing nodes
AI-enabled predictive maintenance systems
New materials like graphene for ultra-sensitive detection
Energy-harvesting self-powered sensors