Pii PTC Thermistores Temperature Sensores est PTC thermistores e materia siliconis monocrystallini facta, adhibita in agitationibus et motoribus, instrumentis, automation industrialis moderatio pro temperatura sentiendi mensuras et functiones, adhibendo Pii PTC possessiones scelerisque quae resistentia augetur cum temperatura in linearitate oritur. emere Vitrum signatum KTY84 580OHM PTC Thermistoris Positivum Temperaturae Coefficientis Sensoris 180C ab Aolittle. Omnis postulatio a clientibus intra 24 horas respondetur.
Vitreum Signatum KTY84 580OHM PTC Thermistor Positivus Temperatus Coefficient Sensor 180C
Vitri Siliconis Caloris Sensoris Linearis PTC Signati Thermistoris AFT-KTY84-150 580 OHM
I Description Of The Silicon Temperature Sensor Linear PTC Thermistor
Pii PTC Thermistores Temperature Sensores est PTC thermistores e materia siliconis monocrystallini facta, adhibita in agitationibus et motoribus, instrumentis, automation industrialis moderatio pro temperatura sentiendi mensuras et functiones, adhibendo Pii PTC possessiones scelerisque quae resistentia augetur cum temperatura in linearitate oritur.
II Outline DimensionOf The Silicon Temperature Sensor Linear PTC Thermistor:(DO35 Standard size of vitrei sarcina) unit: mm
Nec. | Nomen | Spec |
1 | Dumes | Ferronicel Alloy |
2 | Chip | Pii Chip |
3 | Vitreum Testa | ODФ2.0mmmax IDФ0.8±0.05mm |
III Features Of The Silicon Temperature Sensor Linear PTC Thermistor
⺠Productum hoc est genus PTC thermistoris linearis productum, resistentia valorem linearem auget cum caliditatis augmento.
º Minima magnitudo, solida structura, normata species, opportuna ad institutionem latae sententiae.
⺠Firmam stabilitatem ac reproducibilitatem habet, ac propria curva post decies centena millia immutata est.
⺠Gravibus ambitibus adhiberi potest cum caliditas et humiditas alta.
º Usus ad temperaturas mensuras et temperantia in communicationibus, autocinetis, metris, computatris, auxiliis domi aliisque industriis.
⺠Commoda magnae subtilitatis et celeris responsionis habet.
IV Application Of The Silicon Temperature Sensor Linear PTC Thermistor
⺠Motus temperandi sensorem temperandi, temperandi sentiendi ac moderandi in agitationibus ac motoribus, fusis, inverters ac temperandis systematibus, etc.
º Industrial automation imperium apparatu.
⺠Lorem appli- centia temperies detectionis et compensatio.
⺠Subtilitas circuii et crystalli oscillatoris temperatura compensatio.
⺠Temperatura compensatio pii machinas semiconducting.
⺠Temperatura compensatio instrumentorum amplificator.
º A/D convertentis temperatus excambium.
⺠Micro moderatio leo motoris.
⺠Automobile temperatura deprehensio et temperantia.
⺠Medicamenta temperatura deprehensio et temperantia.
º Linearibus PTC applicationes thermistores etiam includunt transmissionem, oleum machinam et refrigerantia, systema calefactivum, calefactio tutelae, amplificatores, commeatus potentiae, transductores, telemetria, computatores, amplificatores magnetici, thermometriae, meteorologiae, temperaturae moderatio et tutela plusquam temperatura.
V Electrical Performances Of The Silicon Temperature Sensor Linear PTC Thermistor
Nec. | Parameter | Symbolum | Test Condition | Min. | Neque. | Maximilianus. | Unitas |
1 | Resistentia ad valorem XXV ° C * | R25 |
constant temperatus 25±0.05â |
540 | 580 | 620 | Ω |
2 | Resistentia valorem ad C° C | R100 |
constant temperatus 100±0.05â |
950 | 1000 | 1050 | Ω |
3 | Dissipatio factor | δ | In adhuc aer | 1.5 | / | / | mW/â |
4 | Scelerisque tempor constant | τ | In adhuc aer | / | / | 7 | s |
5 | Nulla resistentia | / | DC=100V | 100 | / | / | MΩ |
6 | Maximilianus. Opus Current | Imax | / | / | / | 8 | ma |
7 | Ratum Current | IN' | / | / | 2 | / | ma |
8 | Rated potestas | Pmax | / | / | / | 50 | mW* |
9 | Operating Temperature | TA | -40â+180â | ||||
10 | Tempus repono | Tmin | 2 annos (locus temperatus, humiditas relativa <60%) |
VI R-T Tabula Characteristica Parametri Siliconis Temperaturae Sensor Linear PTC Thermistor
Celsius | Fahrenheit | AFT-KTY84-150 | ||||
℃ | ℉ | %/(K) | (Ω) | (K) | ||
MIN | TYP | MAX | ||||
-40 | -40 | 0.97 | 294 | 322 | 350 | ±8.85 |
-30 | -22 | 0.96 | 326 | 356 | 386 | ±8.76 |
-20 | -4 | 0.93 | 360 | 392 | 424 | ±8.7 |
-10 | 14 | 0.88 | 397 | 430 | 463 | ±8.65 |
0 | 32 | 0.87 | 434 | 469 | 504 | ±8.61 |
10 | 50 | 0.85 | 475 | 512 | 549 | ±8.58 |
20 | 68 | 0.82 | 517 | 556 | 595 | ±8.55 |
25 | 77 | 0.80 | 540 | 580 | 620 | ±8.54 |
30 | 86 | 0.80 | 562 | 603 | 644 | ±8.53 |
40 | 104 | 0.75 | 611 | 653 | 695 | ±8.5 |
50 | 122 | 0.74 | 660 | 704 | 748 | ±8.46 |
60 | 140 | 0.71 | 713 | 758 | 803 | ±8.42 |
70 | 158 | 0.67 | 768 | 814 | 860 | ±8.37 |
80 | 176 | 0.63 | 827 | 873 | 919 | ±8.31 |
90 | 194 | 0.62 | 887 | 935 | 983 | ±8.25 |
100 | 212 | 0.61 | 950 | 1000 | 1050 | ±8.17 |
110 | 230 | 0.62 | 1011 | 1068 | 1125 | ±8.66 |
120 | 248 | 0.58 | 1077 | 1138 | 1199 | ±9.17 |
130 | 266 | 0.57 | 1142 | 1209 | 1276 | ±9.69 |
140 | 284 | 0.54 | 1211 | 1282 | 1353 | ±10.24 |
150 | 302 | 0.53 | 1275 | 1352 | 1429 | ±10.8 |
160 | 320 | 0.52 | 1334 | 1418 | 1502 | ±11.37 |
170 | 338 | 0.51 | 1384 | 1474 | 1564 | ±11.96 |
180 | 356 | 0.50 | 1421 | 1516 | 1611 | ±12.58 |
VII Typical Linear Silicon PTC Thermistors Temperature Sensor Application Circuit Diagram
Pars Number |
Resistentia (Ω) |
tolerantia (%) |
Resistentia nominalis (Ω) | Operating Temperature | Ad forum generica exempla |
AFT-KTY83-110 | R25=1000 | ±1% | R25=990-1010 | -55âï½175â | KTY83-1KΩseries |
AFT-KTY83-120 | R25=1000 | ±2% | R25=980-1020 | ||
AFT-KTY83-121 | R25=1000 | -2% | R25=980-1000 | ||
AFT-KTY83-122 | R25=1000 | +2% | R25=1000-1020 | ||
AFT-KTY83-150 | R25=1000 | ±5% | R25=950-1050 | ||
AFT-KTY83-151 | R25=1000 | -5% | R25=950-1050 | ||
AFT-KTY83-152 | R25=1000 | +5% | R25=1000-1050 | ||
AFT-KTY81-110 | R25=1000 | ±1% | R25=990-1010 |
-55âï½+150â
|
KTY81-1KΩ series |
AFT-KTY81-120 | R25=1000 | ±2% | R25=980-1020 | ||
AFT-KTY81-121 | R25=1000 | -2% | R25=980-1000 | ||
AFT-KTY81-122 | R25=1000 | +2% | R25=1000-1020 | ||
AFT-KTY81-150 | R25=1000 | ±5% | R25=950-1050 | ||
AFT-KTY81-151 | R25=1000 | -5% | R25=950-1050 | ||
AFT-KTY81-152 | R25=1000 | +5% | R25=1000-1050 | ||
AFT-KTY81-210 | R25=2000 | ±1% | R25=1980-2020 | -55âï½+150â |
KTY81-2KΩ series KTY10-5KTY10-6KTY10-62KTY10-7series
|
AFT-KTY81-220 | R25=2000 | ±2% | R25=960-2040 | ||
AFT-KTY81-221 | R25=2000 | -2% | R25=1960-2000 | ||
AFT-KTY81-222 | R25=2000 | +2 | R25=2000-2040 | ||
AFT-KTY81-250 | R25=2000 | ±5% | R25=1900-2100 | ||
AFT-KTY81-251 | R25=2000 | -5% | R25=1900-2000 | ||
AFT-KTY81-252 | R25=2000 | +5% | R25=2000-2100 | ||
AFT-KTY84-130 | R100=1000 | ±3% | R25= 575-595 | -40âï½+180â | KTY84 series |
AFT-KTY84-150 | R100=1000 | ±5% | R25=565-613 | ||
AFT-KTY84-151 | R100=1000 | -5% | R25=565-575 | ||
AFT-KTY84-152 | R100=1000 | +5% | R25=595-613 | ||
AFT-KTY-200 | R25=200 | ±3%ï¼+5%,-5% | -40âï½+150â | ||
AFT-KTY-D | R25=500 | ±3%ï¼+5%,-5% | |||
AFT-KTY-1200 | R25=200 | ±3%ï¼+5%,-5% | -50âï½+125â | ||
AFT-KTY-1600 | R25=1600 | ±3% | R25=16000±50Ω | ||
AFT-KTY-3800 | R25=3800 | ±3% | |||
AFT-KTY-4050 | R25=4050 | ±3% | R25=3920-4172 |
X NXP KTY84 KTY83 KTY81 Silicon Temperature Sensores Replacement Information
Pro AMPORT AFT-LPTC600, resistentia @100C 1000 olim aestimata, tolerantia 3%, 5%;
substituere Philips NXP Silicon Temperature Sensores KTY84/130, KTY84/150, KTY84/151.
Late applicata in temperie sentiendi et moderandi in agitationibus et motoribus, fusis, inverters et temperandis systematibus, etc.
Pro AMPORT AFT-LPTC1000, resistentia @25C 1000 olim, tolerantia 1%, 2%, 3%, 5%;
jocus Philips NXP Silicon Temperature Sensores KTY81-1, series KTY83-1,
type no.KTY81-110, KTY81-120, KTY81-121, KTY81-122, KTY81-150, KTY81-151, KTY81-152, KTY83-110, KTY83-120, KTY83-121, KTY83-122, KTY83-150. , KTY83-151, KTY83-152.
Haec pars siliconis temperatura sensoris late adhibetur in wiring phaleras aedificatas in tradendis unitatibus, vehiculis, etc.
Pro AMPORT AFT-LPTC2000, resistentia aestimavit @25C 2000 olim, tolerantia 1%, 2%, 3%, 5%;
Philips NXP Silicon Temperature Sensorium KTY81-2 KTY83-2 series crucis
type no.
Late applicata in temperatura sentiendi et temperantiae instrumenti, instrumenti, compressoris, processus temperantiae, etc.