Many modern communication systems use time division multiplexing. Radios in such multiplexed systems switch rapidly between the receive and transmit modes. Such radios may include oscillators that provide reference waveforms for both the receiver and transmitter portions of the radios. A problem may arise in such radios when an oscillator in the radio produces a signal having a frequency equal to the receive frequency, or to an intermediate frequency of the receiver, because in many cases, the oscillator cannot be turned off sufficiently fast to prevent its output from being received by the receiver when the radio goes into its receive mode. These oscillator signals interfere with the performance of the radio because the receiver receives the oscillator signals instead of desired signals. This phenomenon is known as self-quieting, and is obviously undesirable. One possible solution to the self-quieting problem is to shield the receiver portion of the radio so that the oscillator signals are not received during the receive mode. However, shielding of a receiver requires space and may not be as effective as desired. Thus, a need exists for a method and apparatus for reducing self-quieting that avoids the detriments of shielding.