NDU503C4R3 [AMPHENOL]
Low cost, solid state temperature sensor;型号: | NDU503C4R3 |
厂家: | Amphenol |
描述: | Low cost, solid state temperature sensor 电阻器 |
文件: | 总4页 (文件大小:57K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
NTC Leadless
Chips
Thermometrics Thermistors
Features
NTC Type HM
NTC Type NDU
•ꢀ Low cost, solid state temperature sensor
•ꢀ Point matched at 77°F (25°C) to ±5ꢀ or ±ꢁ±ꢀ
•ꢀ Designed for accurate temperature
measurement, control and compensation
•ꢀ Tight tolerances on resistance and B value
•ꢀ Suitable for use over range of -ꢁꢁ2°F to 3±2°F
(–8±°C to ꢁ5±°C)
•ꢀ Operation up to 3ꢁꢁ°F (ꢁ55°C) with excellent
stability
•ꢀ High sensitivity greater than –4ꢀ/°C at 77°F
(25°C)
•ꢀ Small body size
•ꢀ Fast response
•ꢀ Suitable for temperature measurement,
control and compensation
•ꢀ Suitable for automotive, HVAC and white
•ꢀ Palladium Silver contacts suitable for soldering
goods
or conductive epoxy bonding
•ꢀ Sizes from ±.±25 in x ±.±25 in to ±.±85 in x
±.±85 in (±.63 mm x ±.63 mm to 2.ꢁ5 mm x
2.ꢁ5 mm) available
•ꢀ Not suitable for immersion in fluids or high
humidity
Amphenol
Advanced Sensors
Type HM Specifications
Leadless chip thermistor
T
Description
Top and bottom electrode, uncoated chip thermistors
without leads.
L
W
NTC Type HM dimensions
Options
Data
Consult Thermometrics for availability of options
•ꢀ Other resistance values in the range of ꢁ±± Ω to
ꢁ±± kΩ
Thermal and Electrical Properties
•ꢀ Dissipation constant: (still air) 7 to ꢁ5 mW/K
•ꢀ Thermal time constant: (still air) ꢁ± to 45 seconds
•ꢀ The thermal time constant and dissipation
constant values are dependent upon the method
of mounting. The above values represent the range
of smallest to largest HM thermistor chips when
soldering to an aluminum substrate ±.±25 in (±.635
mm) thick using 2ꢀ silver solder.W
•ꢀ Other tolerances
•ꢀ Other reference temperature
•ꢀ Gold electrodes suitable for wire bonding
•ꢀ Other sizes
Select appropriate part number below for resistance and temperature tolerance desired.
R25°C
Material
System
Width “W”
in
Length “L”
in
Thick “T”
in
R25° 5ꢀ
R25° ꢁ1ꢀ
(mm)
(mm)
(mm)
2252
F
F
F
F
F
F
F
F
Y
Y
H
H
Y
Y
±.±7±
(ꢁ.778)
±.±7±
(ꢁ.778)
±.±ꢁ±
(±.254)
HM7±NF232J
HM85NF232J
HM6±NF3±2J
HM75NF3±2J
HM5±NF5±2J
HM6±NF5±2J
HM35NFꢁ±3J
HM4±NFꢁ±3J
HM45NYꢁ±3J
HM55NYꢁ±3J
HM25NH3±3J
HM3±NH3±3J
HM3±NYꢁ±4J
HM35NYꢁ±4J
HM7±NF232K
HM85NF232K
HM6±NF3±2K
HM75NF3±2K
HM5±NF5±2K
HM6±NF5±2K
HM35NFꢁ±3K
HM4±NFꢁ±3K
HM45NYꢁ±3K
HM55NYꢁ±3K
HM25NH3±3K
HM3±NH3±3K
HM3±NYꢁ±4K
HM35NYꢁ±4K
2252
±.±85
(2.ꢁ59)
±.±85
(2.ꢁ59)
±.±ꢁ5
(±.38±)
3±±±
±.±6±
(ꢁ.523)
±.±6±
(ꢁ.523)
±.±ꢁ±
(±.254)
3±±±
±.±75
(ꢁ.9±4)
±.±75
(ꢁ.9±4)
±.±ꢁ5
(±.38±)
5±±±
±.±5±
(ꢁ.27)
±.±5±
(ꢁ.27)
±.±ꢁ±
(±.254)
5±±±
±.±6±
(ꢁ.523)
±.±6±
(ꢁ.523)
±.±ꢁ5
(±.38±)
ꢁ±±±±
ꢁ±±±±
ꢁ±±±±
ꢁ±±±±
3±±±±
3±±±±
ꢁ±±±±±
ꢁ±±±±±
±.±35
(±.889)
±.±35
(±.889)
±.±ꢁ±
(±.254)
±.±4±
(ꢁ.±ꢁ6)
±.±45
(ꢁ.ꢁ429)
±.±ꢁ5
(±.38±)
±.±45
(ꢁ.ꢁ429)
±.±45
(ꢁ.ꢁ429)
±.±ꢁ±
(±.254)
±.±55
(ꢁ.397)
±.±55
(ꢁ.397)
±.±ꢁ5
(±.38±)
±.±25
(±.635)
±.±25
(±.635)
±.±ꢁ±
(±.254)
±.±3±
(±.76ꢁ9)
±.±35
(±.889)
±.±ꢁ5
(±.38±)
±.±3±
(±.76ꢁ9)
±.±3±
(±.76ꢁ9)
±.±ꢁ±
(±.254)
±.±35
±.±35
±.±ꢁ5
(±.889)
(±.889)
(±.38±)
Type NDU Specifications
±.5 in (ꢁ2.7 mm) maximum
Leadless chip thermistor
±.±78 in (2 mm)
maximum
Description
A range of leadless chip thermistors.
±.±39 in (ꢁ mm)
maximum
NTC Type NDU dimensions
Options
Data
Other resistance values in the range shown; e.g., code
NDUꢁ52C2Rꢁ for ꢁ5±± W ±ꢁꢀ at 77°F (25°C)
•ꢀ Reference temperature in the range of 32°F (±°C)
up to the maximum operating temperature
•ꢀ Resistance value outside the ranges shown with
modified dimensions
•ꢀ Minimum operating temperature: -4±°F (-4±°C)
•ꢀ Maximum operating temperature: See table below
•ꢀ Resistance tolerance: ±3ꢀ or greater
•ꢀ Electrode: Thick film silver
•ꢀ Packaging/MOQ: ꢁ±±±/box
R25 Ω
Material
System
B 25/85
K
Maximum
temp. °F (°C)
Code
R25 ꢂꢀ
Code
R25 5ꢀ
Code
R25 ꢁ1ꢀ
ꢁ±±±
2
354± ± ꢁꢀ
354± ± ꢁꢀ
354± ± ꢁꢀ
3627 ± ꢁꢀ
3627 ± ꢁꢀ
3627 ± ꢁꢀ
3977± ±.75ꢀ
3977± ±.75ꢀ
3977± ±.75ꢀ
3977± ±.75ꢀ
3977± ±.75ꢀ
396±± ꢁꢀ
257 (ꢁ25)
257 (ꢁ25)
257 (ꢁ25)
257 (ꢁ25)
257 (ꢁ25)
257 (ꢁ25)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
3ꢁꢁ (ꢁ55)
23± (ꢁꢁ±)
23± (ꢁꢁ±)
23± (ꢁꢁ±)
NDUꢁ±2C2R3
NDU2±2C2R3
NDU5±2C2R3
NDUꢁ±2C2AR3
NDU2±2C2AR3
NDU5±2C2AR3
NDU272CꢁR3
NDU5±2CꢁR3
NDUꢁ±3CꢁR3
NDU3±3CꢁR3
NDU5±3CꢁR3
NDU272C3R3
NDU5±2C3R3
NDUꢁ±3C3R3
NDU3±3C3R3
NDU5±3C3R3
NDUꢁ±3C4R3
NDU3±3C4R3
NDU5±3C4R3
NDUꢁ±2C2R5
NDU2±2C2R5
NDU5±2C2R5
NDUꢁ±2C2AR5
NDU2±2C2AR5
NDU5±2C2AR5
NDU272CꢁR5
NDU5±2CꢁR5
NDUꢁ±3CꢁR5
NDU3±3CꢁR5
NDU5±3CꢁR5
NDU272C3R5
NDU5±2C3R5
NDUꢁ±3C3R5
NDU3±3C3R5
NDU5±3C3R5
NDUꢁ±3C4R5
NDU3±3C4R5
NDU5±3C4R5
NDUꢁ±2C2Rꢁ±
NDU2±2C2Rꢁ±
NDU5±2C2Rꢁ±
NDUꢁ±2C2ARꢁ±
NDU2±2C2ARꢁ±
NDU5±2C2ARꢁ±
NDU272CꢁRꢁ±
NDU5±2CꢁRꢁ±
NDUꢁ±3CꢁRꢁ±
NDU3±3CꢁRꢁ±
NDU5±3CꢁRꢁ±
NDU272C3Rꢁ±
NDU5±2C3Rꢁ±
NDUꢁ±3C3Rꢁ±
NDU3±3C3Rꢁ±
NDU5±3C3Rꢁ±
NDUꢁ±3C4Rꢁ±
NDU3±3C4Rꢁ±
NDU5±3C4Rꢁ±
2±±±
2
5±±±
2
ꢁ±±±
2A
2A
2A
ꢁ
2±±±
5±±±
27±±
5±±±
ꢁ
ꢁ±±±±
3±±±±
5±±±±
27±±
ꢁ
ꢁ
ꢁ
3
5±±±
3
396±± ꢁꢀ
ꢁ±±±±
3±±±±
5±±±±
ꢁ±±±±
3±±±±
5±±±±
3
396±± ꢁꢀ
3
396±± ꢁꢀ
3
396±± ꢁꢀ
4
3435 ± ꢁꢀ
3435 ± ꢁꢀ
3435 ± ꢁꢀ
4
4
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