Product overview
- Part Number
- EXB-U383R3JV
- Manufacturer
- Panasonic Electronic Components
- Product Category
- Resistor Networks & Arrays
- Description
- Resistor Networks & Arrays 0603x4R 5% 3.3ohm Anti-Sulfur AEC-Q200
Documents & Media
- Datasheets
- EXB-U383R3JV
Product Attributes
- Circuit Type :
- Isolated
- Height :
- 0.5 mm
- Length :
- 3.2 mm
- Maximum Operating Temperature :
- + 125 C
- Minimum Operating Temperature :
- - 55 C
- Number of Pins :
- 8
- Number of Resistors :
- 4
- Packaging :
- Cut Tape, MouseReel, Reel
- Product :
- Arrays
- Qualification :
- AEC-Q200
- Resistor Values :
- 3.3 Ohms
- Series :
- EXB-U
- Termination Style :
- SMD/SMT
- Tolerance :
- 5 %
- Width :
- 1.6 mm
Description
Resistor Networks & Arrays 0603x4R 5% 3.3ohm Anti-Sulfur AEC-Q200
Price & Procurement
Associated Product
You May Also Be Interested In
Part | Manufacturer | Stock | Description |
---|---|---|---|
SNFPX033308J1AKS00 | WIMA | 12 | Film Capacitors SNUBBER .33uF 4kV |
PSB2124200KRL | Nichicon | 46 | Film Capacitors Boxed. radial 30 x 45 x 57.5 |
941C16W1P5K-F | Cornell Dubilier (CDE) | 36 | Film Capacitors 1600V 1.5uF 10% tol |
MHBS505200KJSD | Nichicon | 36 | Film Capacitors radial 30 x 45 x 42.5 |
SNMPU041508J3GJS00 | WIMA | 28 | Film Capacitors 1.5 uF 2000 VDC 5% |
MPX456K305R | CDE / Illinois Capacitor | 12 | Film Capacitors 45uF 305V |
SNMPT043008L1AMS00 | WIMA | 7 | Film Capacitors 3uF 1600 Volts 20% |
336PHC330KR | CDE / Illinois Capacitor | 8 | Film Capacitors 33uF 10% tol FILM |
SNMPO145008LD4KSSD | WIMA | 6 | Film Capacitors 5uF 10% 1000V 37x54x56 |
DCP4L055007JD4KYSD | WIMA | 64 | Film Capacitors 50uF 800V 10% 4 LD 35x50x41.5 PCM 37.5 |
BLC300J701B4D | Cornell Dubilier (CDE) | 1 | Film Capacitors 30uF 700V DC LINK CAPACITOR |
SNMPO145008L3AJS00 | WIMA | 3 | Film Capacitors 5uF 5% 1000V 37x54x56 |
942C6W2P5K-F | Cornell Dubilier (CDE) | 75 | Film Capacitors 2.5uF 600Vdc |
930C1W5K-F | Cornell Dubilier (CDE) | 31 | Film Capacitors 5uF 100V |
DCP4R254009JD4MSSD | WIMA | 13 | Film Capacitors 40.0 uF 1300 VDC 0.2 |