1409-F: Difference between revisions

no edit summary
No edit summary
Line 1: Line 1:
Type '''1409-F 0.001uf Standard Capacitor'''.
{{GR Product
|model=1409-F
|codes=1409-9702
|class=Capacitance Standards
|summary= Standard Capacitor
|image=GR-1409-F-1.jpg
|caption=General Radio 1409-F Standard Capacitor
|series=1409
|introduced=1956
|discontinued=1978+
|designers=
|manuals=
* '''Manual Needed.'''
{{Catalog History}}
}}
The {{Title|General Radio General Radio 1409 Standard Capacitor}} was introduced in {{Catalog O}} and remained available through {{Catalog 1978}}.
 
The 1409-F is a fixed mica capacitor of very high stability for use as two or three-terminal capacitance standards in the laboratory. The capacitor is installed in an aluminum case along with Silica gel desiccant then sealed with hi-temp potting wax. A well located on the right side of the case for the insertion of a dial-type thermometer. Three jack-top binding posts are provided on the top of the case and removable plugs on the bottom, for convenient parallel connection without error. Each capacitor is supplied with a certificate of calibration giving two and three terminal measured capacitance.


==Specifications==
==Specifications==
* '''Capacitance:''' 0.001 μF
* '''Series Inductance:''' 0.050 μH
* '''Adjustment Accuracy:''' within ±0.05%
* '''Stability:''' Capacitance change is less than 0.01% per year
* '''Temperature Coefficient: capacitance; +35 ± 10 ppm per degree between 10 °C and 70 °C
* '''Dissipation Factor: Less than 0.0003 at 1 kHz and 23 °C (see curves). Measured dissipation factor at 1 kHz is stated in the
certificate to an accuracy of ±0.00005
* '''Leakage Resistance:''' 5000 ohm-farads or 100 GO, whichever is the lesser
* '''Maximum Voltage:''' 500 V peak below 4.7 MHz


==Links==
==Links==


* [[Media:GR Exp 1409 07_1957.pdf|Experimenter July 1957 describing Type 1409 Series]]


==Photos==
==Photos==
<gallery>
<gallery>
GR 1209 Figure 1.jpg|Change in capacitance as a function of frequency for typical Type 1409 capacitors.
GR 1209 Figure 2.jpg|Dissipation factor as a function of frequency.
GR 1409 Technical Drawing.jpg|Technical Drawing.
GR-1409-F-1.jpg
GR-1409-F-1.jpg
GR-1409-F-2.jpg
GR-1409-F-2.jpg
9,299

edits