RL3008-13.1-59-D1

Thermistor, NTC, 20 ohm, RL30 Series, 3096 K, Through Hole, Wire Leaded

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Manufacturer: AMPHENOL ADVANCED SENSORS
Product type:
Zero Power Resistance at 25°C:20ohm; Product Range:RL30 Series; Thermistor Mounting:Through Hole; Beta Value (K):3096K; Thermistor Case Style:-; Thermistor Terminals:Radial Leaded; Ope
SVHC: No SVHC (07-Jul-2017)
B-Constant: 3096K
Lead Length: 38mm
NTC Mounting: Through Hole
NTC Case Size: -
Product Range: RL30 Series
Qualification: -
Probe Diameter: -
Probe Material: -
Thermistor Type: Disc, Radial Leaded
Resistance (25°C): 20ohm
Thermistor Mounting: Through Hole
B-Constant Tolerance: -
Thermistor Terminals: Radial Leaded
Operating Temperature Max: 150°C
Operating Temperature Min: -50°C
Resistance Tolerance (25°C): ± 10%
Thermal Time Constant (in Air): 50s

Delivery and price
Units per pack	2500
Price	0.447 €
Current stock	1000+
Lead time	30 days

Datasheet

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|Resistance range @ 25°C..............<br>ee 5 Q to 150 OF<br>a<br>Temperature coefficient of<br>resistance (01) @ 25°C...ecccccecccsesseseeeese<br>3.42%/°C||||A<br>pee||||é<br>ee)|é<br>ee)|c<br>Tmax.)|||
|---|---|---|---|---|---|---|---|---|---|---|---|
|Operating temperature range ..............-50°C to +150°C||||||||||||
|Temp. Range<br>Resistance Ratio<br>Beta<br>°<br>°<br>(°C)<br>(Nom.)<br>(°K)||||<br>ven<br>(ma)|||||||||
|0/50<br>5.6<br>3033<br>37.8/104.4<br>5.9<br>3129<br>25/125<br>14.1<br>3138|||7<br>=a||||||XE pawe)|||
|tThis resistance range is based on the diameter/thickness combina-<br>tionsshown inthetable below. Other Re@ 25°Cvalues are available<br>in this material system.<br>;||Temperature<br>(°F) pe CC)<br>-58<br>-60<br>-49<br>~45<br>~40<br>40<br>31<br>~35||26.32<br>|20.04<br>«(||R<br>25<br>26.32<br>20.04<br> 15.41<br>11.96||TemperatureCost<br>(1°C)<br>5.55<br>-5.35<br>-5.16<br>-4.99||||-<br>Resistance («)||
|Ry<br>;<br>;<br>To calculateFR,2ttemperatures otherthan those listed in<br>25||-22<br>-30<br>~13<br>~25<br>~4<br>-20<br>5<br>-15||9.357<br>7.383<br>5.870<br>4.702|||||~4.82<br>~4.66<br>~4.51<br>~4.37|||
|.<br>.<br>the table, use the following equation:||14<br>~10||3.792|||||4.23|||
|R<br>D<br>“T . 9 (LnA-C inT+)<br>Ros||23<br>-5<br>32<br>0<br>41<br>5<br>50<br>10||3.078<br>2.514<br>2.067<br>1.709|||||4.14<br>-3.98<br>~3.86<br>-3.74|||
|:<br>;<br>T= temperature in °K and equation constants are as follows:||59<br>15||1.422|||||-3.63|||
|||68<br>20||1,189|||||-3.56|||
|Temperature||77<br>25||1.000|||||3.42|||
|||95<br>35||0.7175|||||-3.23|||
|50 to 0<br>17.57910<br>4.16718<br>1835.82||104<br>40||0.6120|||||~3.14|||
|0 to 50<br>7.17807<br>2.59260<br>2264.01||113<br>45||0.5243|||||~3.05|||
|50to 100<br>0.58323<br>1.61491<br>2569.59<br>100 to 150<br>-26,95255<br>-2.31696<br>4155.97<br>;<br>;<br>To calculate the actual thermistor temperature as a function||122<br>50<br>431<br>5s<br>140<br>60<br>149<br>65<br>158<br>70||0.4510<br>0.3898<br>0.3382<br>0.2946<br>0.2575|||||-2.97<br>a8<br>2.80<br>-2.73<br>-2.66|||
|‘<br>i<br>i<br>ion:<br>ofthe thermistor resistance, use the following equation:||167<br>75<br>176<br>80||0.2259<br>0.1989|||||-2.59<br>~|||
|T=<br>1<br>R<br>R<br>R<br>a+b(LnA.+c(LnR)+d(Lna.<br>;<br>.<br>T = temperature in °K and equation constants are as follows:||185<br>85<br>194<br>90<br>203<br>95<br>212<br>100<br>221<br>105||0.1756<br>0.1556<br>0.1382<br>0.1232<br>0.1097|||||-2.46<br>~2.40<br>2.34<br>-2,29<br>~2.23|||
|||230<br>110||0.09794|||||-2.18|||
|R,||239<br>115||0.08776|||||~2.13|||
|2.514 to 26.32 | 3.356056E-03 | 3.250625E-04 | 6.261213E-06|-1.384282E-07<br>.4510 to 2.514 | 3.354016E-03 | 3.292673E-04 | 4.111564E-06|-1.651587E-07<br>1232 to .4510 | 3.356698E-03 | 3.347387E-04 | 7.730427E-06 | 1.062442E-06<br>.0442 to 1232 | 3.297579E-03 | 2.913574E-04<br>|-2.188039E-07| 7.768265E-07||257<br>125<br>266<br>130<br>275<br>135<br>264<br>140<br>293<br>145<br>302<br>150||0.07114<br>0.06434<br>0.05835<br>0.05306<br>0.04837<br>0.04421|||||-2.04<br>2.00<br>-1.95<br>~1.90<br>~1.87<br>183|||
|R°@25°C | Tolerancee{__<br>A | BTtg<br>TypeNumber<br>a<br>9% [ed<br>| or) | Ged | god [ded | re)|WGI]<br>CH)| Gr) [mwa] <br>RL1006-98.4-59-D1<br>150<br>20<br>0.110<br>2.79|<br>0.060 | 1.52 | 0.140 | 3.56<br>26<br>| 0.100 | 2.54<br>2.7<br>RL1005-82-59-D1<br>125<br>0.050|1.27|0.130|3.30<br>2.5||||||||||||e<br> (Sec,<br>10<br>10|
|RL1004-65.6-59-D1<br>100<br>FL1003-49.2-59-D1<br>75|0.040 <br>0.030|| 1.02 | 0.120 <br> | 0.76 | 0.110|| <br> ||3.05<br> 2.79||||||2.5<br>2.5|9g<br>9|
|RL2007-32.8-59-D1<br>20<br>0.220<br>5.59]<br>RL2004-16.4-59-D1|0.070 <br>0.040|| 1.78 | 0.160 <br> | 1.02 | 0.130|| <br> ||4.06<br> 3.30|24||||0.156|| 3.96|6.5<br>6.5|30<br>20|
|RL3008-13.1-59-D1<br>20<br>0.320 | 8.13] <br>RL3006-9.84-59-D1<br>RL3004-6.56-59-D1<br>ri4so4a.266o-01 | 5 |20 0.480| 12.19|0.080 <br>0.060 <br>0.040 <br>[0.040]|| 2.03 |0.170 | 4.32<br>24 |0.250<br> | 1.52 | 0.150]<br>3.81<br> | 1.02 | 0.130 | 3.30<br>1.02forgo]<br>356 | 22||||||0.250 <br>[osee|233}|| 6.35<br>8.0<br>50<br>75<br>45<br>7.0<br>35<br>233}<br>100 | 60_||||
|*Consult Keystone Thermometrics Engineering Department for information on other tolerances or tolerances at temperatures other than 25°C.||||||||||||
|KEYSTONE||||||||||||
|THERMOMETRICS||||||||||||
|967 WINDFALL ROAD # ST. MARYS © PENNSYLVANIA @|15857-3397 @ TEL: (814) 834-9140 e FAX: (814)|||||781-7969||||||
|12||||||||||||

Updated at June 8, 2026

Amphenol Advanced Sensors is a leading innovator in sensor technologies and measurement solutions, serving the highly regulated and demanding needs of the transportation, medical, and industrial markets. Through its renowned legacy brands—including Thermometrics for temperature sensing, NovaSensor for pressure, and Telaire for air quality—the company delivers a diverse portfolio of critical components designed to provide accurate environmental data for real-time decision-making. The core of this manufacturer's offering focuses heavily on highly reliable circuit protection and transducer components. Engineers will find an extensive selection of temperature sensing and compensation NTC thermistors, alongside a comprehensive range of high-performance pressure sensors and transducers. These precision-engineered devices are essential for ensuring thermal stability, accurate fluid measurement, and reliable operational feedback in complex commercial and industrial applications. Beyond these primary lines, the selection includes vital power management devices such as inrush current limiting (ICL) NTC thermistors and PTC thermistors engineered to safeguard sensitive electronics. The portfolio is further complemented by specialized temperature sensors, light sensors, and dataloggers, providing a robust, integrated suite of measurement and protection solutions for modern hardware design.

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