A Capaciticectomy? Sounds Awfully Painful!


One of your high-speed triple amplifiers is oscillating. What’s wrong with it?

RAQ:  Issue 34


Well there are a variety of things that could be wrong with the "circuits," but most likely there's nothing intrinsically wrong with the amplifier. With many high-performance amplifiers, however, you do need to pay close attention to layout and bypassing. If ignored, you and your circuit could feel a little ill.

With wideband devices, you need to be careful and pay attention to the small details. In this case, it turned out that the oscillation experienced by the customer wasn't caused by the amplifier itself, but by poor layout.

To be specific, the problem was parasitic capacitance at the inverting input of the amplifier to ground. Capacitance at the inverting input introduces a pole in the amplifier's loop response, lowering the amplifier's phase margin and causing instability, peaking, and ringing. It doesn't take much capacitance1 to cause an oscillation, and you can easily accumulate 2 to 3 pF of capacitance at the summing node (inverting input) if you're not paying attention to layout. I always advise customers to breadboard the circuit if possible, and to test the heck out it in the lab. A high-performance simulated design can be rendered useless if proper layout guidelines are not followed.

The solution is a capaciticectomy (not really a word) – although it's quite difficult to remove parasitic capacitance after it has infiltrated your board. Therefore, in these cases, prevention is the best medicine. The capacitance is formed by the small mounting pads of the amplifier, gain setting and feedback resistor pads, board dielectric and the ground plane. We always recommend removing the ground plane from beneath the amplifier mounting pads and around the summing node where the feedback and gain set resistor pads are located. Doing so effectively removes the bottom plate of the parasitic capacitor and therefore eliminates the capacitance. This applies equally to the output, as parasitic capacitance at the output can also cause similar problems.

As with humans, a little preventative medicine goes a long way. Paying attention to board layout issues at the onset of your design, will keep you and your circuit in tiptop shape!

Keep an eye out for our New and Improved webinar this October, "A Practical Guide to High-Speed Printed-Circuit-Board Layout."

1Some customers ask how much capacitance is enough to cause a circuit to oscillate. I sometimes tell them a 1000pF is enough. Confused looks abound and I explain to them that if 1pF = a puff, then a 1000pF = 1 nF, then it stands to reason 1 nF = a nuff and a nuff is enough!

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John Ardizzoni

John Ardizzoni

John started at Analog Devices in 2002, as an Application Engineer in the High Speed Amplifier group. Prior to joining Analog Devices John worked for IBM, in RFIC applications and at M/A-COM for 20 years. John is also co-author of Analog Devices Rarely Asked Questions (RAQ's) column. John has over 30 years experience in the electronics industry, and has authored numerous articles and design ideas.