I've been having a little fun making a 'programmable' gain stage with about a dozen relays, and want to have the option of changing coupling caps 'on the fly' so to speak. I've done a little transient response work on SPICE (to make sure my relays weren't going to weld themselves together), and among other things, found that depending on the capacitor size and grid leak resistor, it takes about 3/4 of a second for 0.022uf coupling cap to completely charge and not upset the bias of the preceding stage (ie, momentary blocking distortion).
Could I implement a sort of pre-charging circuit, where the capacitor to be switched would be at plate potential, but grounded to a largish (1M) resistor, then disconnected from the resistor and placed in parallel with the existing coupling capacitor when the time comes? Is the blocking distortion seen on SPICE even a problem in the real world? Normally switches would be panel mounted and would probably go unnoticed but this application is really for two separate foot switchable channels.
Could I implement a sort of pre-charging circuit, where the capacitor to be switched would be at plate potential, but grounded to a largish (1M) resistor, then disconnected from the resistor and placed in parallel with the existing coupling capacitor when the time comes? Is the blocking distortion seen on SPICE even a problem in the real world? Normally switches would be panel mounted and would probably go unnoticed but this application is really for two separate foot switchable channels.
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