Temperature Sensors - NTC Thermistors

Part Number	Description / PDF	Quantity
NHQM273B400T10 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 27KOHM 4000K 0805	0
RL1006-135.2K-138-D1 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 250KOHM 4561K DISC	0
03006-269.8K-138-G100 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 500KOHM 4567K DO213AA	0
DC95G503VN Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 50KOHM 4252K BEAD	473
NHQMM472B355T10 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 4.7KOHM 3550K 0603	0
NK103C1R1 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 10KOHM 3977K BEAD	920
BR11KA152M Thermometrics (Amphenol Advanced Sensors)	NTC THERMISTORS DIA 11MILS ADJ L	154
AL03006-624-73-G1 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 1KOHM 3499K DO35	301
DKF104N5 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 100KOHM 3960K DO35	2473
SC30F103VN Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 10KOHM 3969K BEAD	2088
JI-F103WN-L252 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 10KOHM 3969K PROBE	211
JI-F103WN-L102 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 10KOHM 3969K PROBE	105
RL3504-31.2-73-D1 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 50OHM 3468K DISC	4992
NHQMM472B355T5 Thermometrics (Amphenol Advanced Sensors)	THERM NTC 4.7KOHM 3550K 0603	0
SC30F103A Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 10KOHM 3969K BEAD	2107
NKA272C1R2C Thermometrics (Amphenol Advanced Sensors)	THERM NTC 2.7KOHM 3977K BEAD	0
MA100GG232A Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 2.252KOHM PROBE	0
JS8746B-0.15 Thermometrics (Amphenol Advanced Sensors)	HARSH ENVIRONMENT TEMP SENSOR, 0	162
NHQMM502B355T5 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 5KOHM 3550K 0603	0
NHQM203B400T10 Thermometrics (Amphenol Advanced Sensors)	THERMISTOR NTC 2KOHM 4100K 0805	0

Temperature Sensors - NTC Thermistors

1. Overview

NTC (Negative Temperature Coefficient) thermistors are temperature-sensitive resistors whose resistance decreases with increasing temperature. This semiconductor ceramic device utilizes metal oxide materials to achieve precise temperature measurement and control. As a fundamental component in thermal management systems, NTC thermistors play critical roles in modern electronics, automotive engineering, and industrial automation due to their high sensitivity ( : 2000-5000 K) and accuracy ( 0.1 C to 5 C).

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
Bead Thermistors	Small size ( 0.5-5mm), fast response (<50ms), glass-encapsulated	Medical probes, liquid temperature monitoring
Disk Thermistors	Higher power rating, epoxy-coated, axial leads	Power supply thermal protection, HVAC systems
Chip Thermistors	SMD packaging, low profile (0.6-3.2mm), RoHS compliant	Smartphone thermal management, wearable devices
Glass-Encapsulated	Hermetic seal, corrosion resistance, operating temp: -50 C to +300 C	Automotive battery monitoring, aerospace sensors

3. Structure and Composition

Typical NTC thermistor construction includes:

Semiconductive ceramic core (Mn-Ni-Co-Ox system)
Platinum alloy electrode layers (sintered or plated)
Protective epoxy/glass encapsulation (IP67 rated)
Lead wires (Cu/Ni alloy, 26-34 AWG)

Manufacturing process involves powder synthesis at 1500 C, isostatic pressing, and controlled atmosphere sintering to achieve desired R-T characteristics.

4. Key Technical Specifications

Parameter	Description	Significance
Rated Resistance (R25)	Resistance at 25 C (100 -10M range)	System compatibility, signal conditioning design
B-Value (K)	Material constant (2000-5000K)	Determines sensitivity across operating range
Tolerance	Resistance deviation ( 1% to 15%)	Affects measurement accuracy
Operating Temp Range	-100 C to +600 C (varies by type)	Environmental suitability
Dissipation Factor	mW/ C (self-heating coefficient)	Power consumption and stability considerations

5. Application Fields

Primary industries utilizing NTC thermistors:

Industrial: Process control ( 0.5 C accuracy), motor protection
Consumer Electronics: Battery management (Li-ion charging), smart thermostats
Medical: Patient monitoring (Class F accuracy), lab equipment
Automotive: Battery pack thermal monitoring (ISO 14001 compliance), ECU protection

Notable application example: Tesla Model S battery management system uses 48-channel NTC array for cell temperature monitoring ( 1 C accuracy).

6. Leading Manufacturers and Products

Manufacturer	Key Products	Technical Highlights
Murata Electronics	NXFT Series	Automotive-grade (AEC-Q200), 0.5 C accuracy, -50 C to +150 C range
TE Connectivity	NTCLE Series	Medical certification (IEC 60601), 3.2mm chip format
Vishay Beyschlag	NTCAl Series	Aluminum housing, 50W power handling, IP68 rating

7. Selection Guidelines

Key considerations for NTC thermistor selection:

Resistance-Temperature curve matching application requirements
Environmental factors: humidity (IP rating), vibration (automotive shock specs)
Electrical parameters: operating current (self-heating effects)
Form factor constraints (SMD vs through-hole)
Calibration requirements (standard vs customized R-T tables)

Recommend verifying long-term stability (aging rate <0.2%/year) and RoHS compliance for production applications.

8. Industry Trends

Emerging developments include:

Micro-NTC fabrication (MEMS-based, <0.1mm chips)
High-temperature stability improvements (up to 600 C operation)
Integration with wireless sensor networks (Zigbee/LoRa compatibility)
AI-enhanced linearization algorithms (reducing external circuit complexity)

Market growth projected at 8.2% CAGR through 2027 driven by EV battery management demands.