Produktübersicht
- Artikelnummer
- RS00740K00FB12
- Hersteller
- Vishay / Dale
- Produktkategorie
- Drahtwiderstände - Durchgangsloch
- Beschreibung
- Wirewound Resistors - Through Hole 7watt 40Kohm 1%
Dokumente & Medien
- Datenblätter
- RS00740K00FB12
Produkteigenschaften
- Length :
- 32.5 mm
- Maximum Operating Temperature :
- + 250 C
- Minimum Operating Temperature :
- - 65 C
- Packaging :
- Bulk
- Power Rating :
- 7 W
- Resistance :
- 40 kOhms
- Series :
- RS
- Temperature Coefficient :
- 20 PPM / C
- Termination Style :
- Axial
- Tolerance :
- 1 %
- Width :
- 7.9 mm
Beschreibung
Wirewound Resistors - Through Hole 7watt 40Kohm 1%
Preis & Beschaffung
Zugehöriges Produkt
Das könnte Sie auch interessieren
Teil | Hersteller | Lager | Beschreibung |
---|---|---|---|
SG73S2BTTD6191D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG73S2BTTD1152D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG73P2BTTD6342D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG73S2BTTD3650D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG73S2BTTD1693D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
RK73H1ERTTP5900D | KOA Speer | 3,000 | Thick Film Resistors - SMD 590 ohm 0.5% 0.1W AEC-Q200 ANTI-SULFUR |
SG73S2BTTD22R6D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG732BTTD684K | KOA Speer | 3,000 | Thick Film Resistors - SMD 0.25W 680Kohm 10% 200ppm Anti-Surge |
RK73H1ERTTP1603D | KOA Speer | 3,000 | Thick Film Resistors - SMD 160K ohm 0.5% 0.1W AEC-Q200 ANTI-SULFUR |
SG73P2BTTD2430D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
RK73H1ERTTP3653D | KOA Speer | 3,000 | Thick Film Resistors - SMD 365K ohm 0.5% 0.1W AEC-Q200 ANTI-SULFUR |
SG73P2BTTD13R7D | KOA Speer | 3,000 | Thick Film Resistors - SMD |
SG732BTTD333K | KOA Speer | 3,000 | Thick Film Resistors - SMD 0.25W 33Kohm 10% 200ppm Anti-Surge |
RK73H1ERTTP3743D | KOA Speer | 3,000 | Thick Film Resistors - SMD 374K ohm 0.5% 0.1W AEC-Q200 ANTI-SULFUR |
RK73H1ERTTP2431D | KOA Speer | 3,000 | Thick Film Resistors - SMD 2.43K ohm 0.5% 0.1W AEC-Q200 ANTI-SULFUR |