ITW PAKTRON - CAP309 - NEW AXIAL POLY STY CAPS
- Buy 10 for $1.49 each and save 25%
ITW PAKTRON - 104J100 - CAP293 - Capacitors, Polystyrene.
The demise of polystyrene capacitors began in 1990 when the suppliers felt that thin-sheet capacitor dielectric material was too much effort for such a small part of their product line. Capacitor manufacturers placed large onetime orders to satisfy the demand for this precision-type of dielectric material. The polystyrene capacitor was the device of choice for precision-tuned circuits due to the extreme stability in the 0°C thru +50°C range as well as long-term stability. The major drawback of this dielectric was the maximum operating temperature of +85°C, the glass transition temperature of ~95°C, and a fluid temperature of +100°C, making applications for this device limited.
0.1uF 100V.
Package: Axial leads.
Dimensions: 1/4" D x 5/8" long. (15.5mm LONG x 6.5mm DIA)
Applications: Communications, Timing/Oscillation Circuits, Signal Coupling, and Bypass Filtering
| SKU | 134308 |
|---|---|
| Condition | NS - NEW SURPLUS |
| Part Number | CAP309 |
| Alternative Part Number | 0.1UF 100V POLY STY |
ITW PAKTRON - 104J100 - CAP293 - Capacitors, Polystyrene.
The demise of polystyrene capacitors began in 1990 when the suppliers felt that thin-sheet capacitor dielectric material was too much effort for such a small part of their product line. Capacitor manufacturers placed large onetime orders to satisfy the demand for this precision-type of dielectric material. The polystyrene capacitor was the device of choice for precision-tuned circuits due to the extreme stability in the 0°C thru +50°C range as well as long-term stability. The major drawback of this dielectric was the maximum operating temperature of +85°C, the glass transition temperature of ~95°C, and a fluid temperature of +100°C, making applications for this device limited.
0.1uF 100V.
Package: Axial leads.
Dimensions: 1/4" D x 5/8" long. (15.5mm LONG x 6.5mm DIA)
Applications: Communications, Timing/Oscillation Circuits, Signal Coupling, and Bypass Filtering
