# Testing with a Stubborn Load (EM Coils)

A project log for Palm-sized AC Generator

Portable 9V battery powered DC to AC converter with variable frequency

Ellie T 08/11/2018 at 21:242 Comments

The Make book suggested that for 555 oscillating circuits similar to this, the frequency can be calculated with

I attempted to achieve greater frequencies by reducing R1 and R2, but the high current caused the resistors and chip to be hot. The constant k depends on the other components in the circuit. If I define k = 1440 as given in the book’s example, my maximum frequency should be around 260 MHz. However, the measured range of oscillator was only 55-194 kHz. This big difference is probably due to the k value due to other component’s differences.

The variable RC filter was controlled by potentiometer2 (P2). The resistance on P2 was varied to suit the frequency and smooth out the square waves.

When the frequency is greatly varied, however, another capacitor will need to be used to filter out the ‘extra’ higher frequency waves. So that's a problem with varying frequencies hmmm.

## Discussions

Ellie T wrote 08/12/2018 at 18:45 point

Ah I must've been forcing the little fella to push limits hard! Thanks for pointing that out.

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K.C. Lee wrote 08/11/2018 at 21:57 point

Might want to _READ_ the datasheet to see what frequency your 555 is capable of first.  See "

Parametrics - Frequency (Max) (MHz) "  Just because they give you an equation doesn't mean that there aren't limits due to the components.

Yes, there are faster versions of 555.

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