Produktübersicht
- Artikelnummer
- RN732BTTD1043B25
- Hersteller
- KOA Speer
- Produktkategorie
- Dünnschichtwiderstände
- Beschreibung
- Thin Film Resistors - SMD 1206 104 Kohms 0.1% 25PPM
Dokumente & Medien
- Datenblätter
- RN732BTTD1043B25
Produkteigenschaften
- Case Code - in :
- 1206
- Case Code - mm :
- 3216
- Maximum Operating Temperature :
- + 155 C
- Minimum Operating Temperature :
- - 55 C
- Packaging :
- Cut Tape, MouseReel, Reel
- Power Rating :
- 125 mW (1/8 W)
- Resistance :
- 104 kOhms
- Series :
- RN73
- Temperature Coefficient :
- 25 PPM / C
- Tolerance :
- 0.1 %
- Voltage Rating :
- 200 V
Beschreibung
Thin Film Resistors - SMD 1206 104 Kohms 0.1% 25PPM
Preis & Beschaffung
Zugehöriges Produkt
Das könnte Sie auch interessieren
Teil | Hersteller | Lager | Beschreibung |
---|---|---|---|
LQG15WHR15J02J | Murata Electronics | 3,000 | Fixed Inductors |
LQG15WZR13H02J | Murata Electronics | 3,000 | Fixed Inductors |
PA5402.331NLT | Pulse Electronics | 3,000 | Fixed Inductors 0.33uH Shielded 20% 18A 8.6mOhms |
PA5402.332NLT | Pulse Electronics | 3,000 | Fixed Inductors 3.3uH Shielded 20% 4A 76mOhms |
PA5402.561NLT | Pulse Electronics | 3,000 | Fixed Inductors 0.56uH Shielded 20% 10A 10mOhms |
PA5006.331NLT | Pulse Electronics | 3,000 | Fixed Inductors 0.33uH 20% AEC-Q200 17A DCR=6.2mOhm |
LQG15WHR10J02J | Murata Electronics | 3,000 | Fixed Inductors |
PA5402.681NLT | Pulse Electronics | 3,000 | Fixed Inductors 0.68uH Shielded 20% 10A 19mOhms |
LQG15WZ91NH02J | Murata Electronics | 3,000 | Fixed Inductors |
PA1212.151NLT | Pulse Electronics | 3,000 | Fixed Inductors SMT POWER BEAD |
PA5402.103NLT | Pulse Electronics | 3,000 | Fixed Inductors 10uH Shielded 20% 2.3A 243mOhms |
PA5402.562NLT | Pulse Electronics | 3,000 | Fixed Inductors 5.6uH Shielded 20% 3A 125mOhms |
PM4547.822NLT | Pulse Electronics | 3,000 | Fixed Inductors 8.2uH 1.3A 1.5mm AEC-Q200 +/-20% |
LQG15WHR12J02J | Murata Electronics | 3,000 | Fixed Inductors |
PM4547.682NLT | Pulse Electronics | 3,000 | Fixed Inductors 6.8uH 1.5A 1.5mm AEC-Q200 +/-20% |