Temperature Sensors - Thermostats

Temperature Sensors - Thermostats - Mechanical

Part Number	Description / PDF	Quantity
67F100-0360 Sensata Technologies – Airpax	THERMOSTAT 100DEG C NO TO220-2	0
67F090-0053 Sensata Technologies – Airpax	THERMOSTAT 90DEG C NO TO220-2	0
66F075-0498 Sensata Technologies – Airpax	THERMOSTAT 75DEG C SPST-NO 4SMD	989
67L105P Sensata Technologies – Airpax	THERMOSTAT 105DEG C NC TO220-2	0
67F100-0387 Sensata Technologies – Airpax	THERMOSTAT 100DEG C NO TO220-2	0
67F115-0248 Sensata Technologies – Airpax	THERMOSTAT 115DEG C NO TO220-2	0
67F100P Sensata Technologies – Airpax	THERMOSTAT 100DEG C NO TO220-2	128
67F110-0462 Sensata Technologies – Airpax	THERMOSTAT 110DEG C NO TO220-2	0
67L095 Sensata Technologies – Airpax	THERMOSTAT 95DEG C NC TO220-2	315
67F110P Sensata Technologies – Airpax	THERMOSTAT 110DEG C NO TO220-2	0
67F115-0363 Sensata Technologies – Airpax	THERMOSTAT 115DEG C NO TO220-2	0
67L125 Sensata Technologies – Airpax	THERMOSTAT 125DEG C NC TO220-2	372
67F050-0012 Sensata Technologies – Airpax	THERMOSTAT 50DEG C NO TO220-2	0
66L090-0468 Sensata Technologies – Airpax	THERMOSTAT 90DEG C SPST-NC 4SMD	623
67F090-0068 Sensata Technologies – Airpax	THERMOSTAT 90DEG C NO TO220-2	0
67F040-0093 Sensata Technologies – Airpax	THERMOSTAT 40DEG C NO TO220-2	0
67F075-0059 Sensata Technologies – Airpax	THERMOSTAT 75DEG C NO TO220-2	0
66L060-0340 Sensata Technologies – Airpax	THERMOSTAT 60DEG C SPST-NC 8SMD	232
67F080P Sensata Technologies – Airpax	THERMOSTAT 80DEG C NO TO220-2	0
66L120-0368 Sensata Technologies – Airpax	THERMOSTAT 120DEG C SPST-NC 4SMD	13322

Temperature Sensors - Thermostats - Mechanical

1. Overview

Mechanical temperature sensors and thermostats are electromechanical devices that detect temperature changes through physical deformation or phase-state variations. They convert thermal energy into mechanical displacement to trigger switching actions. These components remain critical in temperature regulation systems where reliability, cost-effectiveness, and simplicity are prioritized over digital precision. Their importance persists in industrial, automotive, and household applications despite advancements in electronic sensors.

2. Main Types & Functional Classification

Type	Functional Characteristics	Application Examples
Bimetallic Strip	Uses differential expansion of two metal alloys to bend at specific temperatures	HVAC systems, electric kettles, space heaters
Gas/Vapor-Pressure	Operates via pressure changes in sealed gas-filled capsules	Refrigeration systems, industrial ovens
Fluid Expansion	Relies on liquid/wax volume changes to actuate mechanical switches	Automotive engines, radiator systems
Mercury Bulb	Uses mercury's conductivity and thermal expansion for precise switching	Medical equipment, laboratory incubators

3. Structure & Components

Typical construction includes: - Sensing Element: Bimetallic strip, liquid-filled bulb, or gas capsule - Actuation Mechanism: Spring-loaded contacts or mercury tilt switches - Adjustment System: Calibrated springs or set-point knobs - Enclosure: Metal/aluminum housing for thermal conductivity - Electrical Contacts: Silver-nickel or gold-plated terminals

4. Key Technical Specifications

Parameter	Description	Importance
Temperature Range	Operating limits (-50 C to 300 C typical)	Determines application suitability
Accuracy	2 C to 10 C depending on design	Process control reliability
Response Time	5-60 seconds	System reaction speed
Switching Current	1-15A ratings	Load compatibility
Environmental Rating	IP54 to IP67 protection	Operational durability

5. Application Fields

Industrial: Furnace temperature control, pipeline monitoring
Residential: Water heater regulation, HVAC systems
Commercial: Refrigeration units, coffee machines
Automotive: Engine coolant management, cabin climate control
Medical: Incubator temperature maintenance

Case Example: Automotive engines use wax pellet thermostats to regulate coolant flow, maintaining optimal operating temperatures between 90-105 C.

6. Leading Manufacturers

Manufacturer	Key Products	Special Features
Honeywell	T6000 series	Adjustable hysteresis, IP65 rating
OMRON	E5CC Temperature Controller	Digital display with mechanical backup
TE Connectivity	MA320-12	High-vibration resistance design
Danfoss	KPI 316E	Food processing compliant materials

7. Selection Guidelines

Key considerations:

Environmental conditions (vibration, humidity, chemical exposure)
Required temperature range and switching accuracy
Electrical load specifications
Actuation speed requirements
Mounting configuration and space constraints
Regulatory compliance (UL, CSA, CE)

8. Industry Trends

Current developments include: - Hybrid systems integrating mechanical sensors with digital interfaces - Miniaturization for portable device integration - Enhanced materials for extreme temperature applications - Wireless-enabled mechanical-electronic combined systems - Improved hysteresis control for energy-efficient systems

Market projections indicate sustained demand in industrial sectors, with a 3.2% CAGR expected through 2030 despite increasing digital competition.