Mo***r Electronics : ERA-3ARB363V Panasonic
ERA-3A Metal Thin Film Chip Resistors. Panasonic ERA-3A Metal Thin Film Chip Resistors are a high-performance, high-reliability resistor series in the ERA ...
Di***Key : ERA-3ARB363V Panasonic Electronic
ERA-3ARB363V – 36 kOhms ±0.1% 0.1W, 1/10W Chip Resistor 0603 (1608 Metric) Automotive AEC-Q200 Thin Film from Panasonic comonents
Ne***k Electronics : ERA3ARB363V - Panasonic - Surface Mount Metal Film ...
Buy ERA3ARB363V - Panasonic - Surface Mount Metal Film Resistor, AEC-Q200 ERA Series, 36 kohm, 100 mW, - 0.1%, 150 V RoHS: Yes.
Pa***onic : ERA3ARB363V - High Precision Chip Resistors
Parts no. ERA3ARB363V ; Power Rating (W), 0.100 ; Chip Size (LxW(EIA)) (mm), 1.6 x 0.8 (EIA:0603) ; Resistance Values (Ω), 36000.0000 ; Resistance Tolerance (%) ...
Pa***onic : ERA3ARB363V : CAD Data - Chip Resistors
Product specifications and documents of CAD Data, ERA3ARB363V, Panasonic. ... ERA3ARB363V : CAD Data. SamacSys. Download or send a request to create 3D ...
JL***B : ERA-3ARB363V | PANASONIC | Chip Resistor
ERA-3ARB363V ; Package: 0603 ; Description: 100mW Thin Film Resistor ±0.1% 36kΩ 0603 Chip Resistor - Surface Mount ROHS ; Datasheet: Download ; Source: JLCPCB.
Fa***ll Ireland : ERA3ARB363V - Panasonic - SMD Chip Resistor, 36 kohm ...
ERA series metal thin film chip resistors have small resistance tolerance and temperature coefficient of resistance, low current noise and excellent linearity.
X-***WorldWide Electronics : ERA-3ARB363V - Panasonic | X-ON Electronics
ERA-3ARB363V of Panasonic are available at X-ON comonents X-ON offers better pricing, availability and various range of ERA-3ARB363V.
Di***elec International : ERA3ARB363V - SMD Resistor, Panasonic
ERA3ARB363V - SMD Resistor, Panasonic · Stable at high temperature and humidity, ±10 ppm/°C · High heat resistance: 155°C, 1000h ΔR<±0.1% · Correspond to AEC-Q200 ...
RS***line : SURFACE MOUNT RESISTORS TECHNICAL GUIDE Ver.3
Period: 10 sec; 100 ohm. Impressing frequency: 1000 times (criteria, changing rate of resistance value within 5%); 1k ohm. Number of samples: n = 5; 10k ohm.