The Res 887R, 0.1%, 1W, Thin Film, 0805 is a precision thin film chip resistor from the RA73 series, designed for high stability and performance. It features a resistance value of 887 ohms with a tolerance of ¬±0.1%, making it suitable for applications requiring precise resistance measurements. The resistor has a power rating of 1W at 70¬8C and operates within a temperature range of -55¬8C to +155¬8C. It is constructed on an aluminum-nitride substrate, which provides high thermal conductivity and contributes to its high power-to-size ratio. The resistor is compatible with automatic placement methods due to its uniform physical dimensions. It is RoHS compliant and adheres to standard resistance values within the IEC 63 E96 and E24 value grids. This component is ideal for use in power supplies, power switching, and braking systems.
887 Ohms ±0.1% 1W Chip Resistor 0805 (2012 Metric) Thin Film
887 Ohms ±0.1% 1W Chip Resistor 0805 (2012 Metric) Thin Film
RA73F 2A 887R 0.1% 5K RL
RES, 887R, 0.1%, 1W, THIN FILM, 0805; Resistance:887ohm; Resistance Tolerance:± 0.1%; Power Rating:1W; Resistor Case / Package:0805 [2012 Metric]; Resistor Technology:Thin Film; Resistor Type:Precision; Product Range:RA73 Series RoHS Compliant: Yes
RES, 887R, 0.1%, 1W, THIN FILM, 0805; Resistance:887ohm; Resistance Tolerance:± 0.1%; Power Rating:1W; Resistor Case / Package:0805 [2012 Metric]; Resistor Technology:Thin Film; Resistor Type:Precision; Product Range:RA73 Series RoHS Compliant: Yes
| DigiKey | Newark, An Avnet Company | |
|---|---|---|
| Product Category | Resistors | Resistors |
| Product Number | 1712-RA73F2A887RBTDCT-ND | 26AK1458 |
| Product Name | Chip Resistor - Surface Mount | Res, 887R, 0.1%, 1W, Thin Film, 0805; Resistance Holsworthy Te Connectivity |
| Configuration | Single Resistor | Single Resistor |
| Category / Application | General Use | Precision Resistor |
| Technology / Construction | Thin Film (Chip) | Thin Film (Chip) |
| Mounting / Packaging | 0805; 0805 | 0805; 0805 [2012 Metric] |
| Tolerance | 0.1000 +/- % | 0.1000 +/- % |
