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bias decoupling capacitors (Read 6637 times)
modern_analog
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bias decoupling capacitors
Sep 06th, 2008, 9:45pm
 
When you typically have a current mirror, people tend to put a cap on the gate line.

How does one decide how much cap to put there?

I have see only ad-hoc approaches but noone to give explanation on the optimum cap
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pancho_hideboo
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Re: bias decoupling capacitors
Reply #1 - Sep 6th, 2008, 11:41pm
 
modern_analog wrote on Sep 6th, 2008, 9:45pm:
When you typically have a current mirror, people tend to put a cap on the gate line.
How does one decide how much cap to put there?
I have see only ad-hoc approaches but noone to give explanation on the optimum cap

It depends on input capacitance of gate, resistance of bias feed and operation frequency.
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modern_analog
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Re: bias decoupling capacitors
Reply #2 - Sep 7th, 2008, 5:37pm
 
Can you please be more specfic. Lets assume input gate cap is 1pF and bias resistance is 1ohm. Assume the frequency is 10G
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HdrChopper
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Re: bias decoupling capacitors
Reply #3 - Sep 7th, 2008, 5:55pm
 
I think pancho suggested that mainly depends up to which frequency you want the current mirror to work as such. By selecting the capacitor size in combination with the mirror RON you might get the desired -3dB frequency for the current mirror.

Regards
Tosei
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Keep it simple
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hzfeiyun
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Re: bias decoupling capacitors
Reply #4 - Sep 11th, 2008, 12:10am
 
modern_analog wrote on Sep 6th, 2008, 9:45pm:
When you typically have a current mirror, people tend to put a cap on the gate line.

How does one decide how much cap to put there?

I have see only ad-hoc approaches but noone to give explanation on the optimum cap


If for DC bias, it can be as large as possible.

btw, what is ad-hoc approaches?

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ACWWong
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Re: bias decoupling capacitors
Reply #5 - Sep 11th, 2008, 12:27am
 
hzfeiyun wrote on Sep 11th, 2008, 12:10am:
btw, what is ad-hoc approaches?



ad hoc (http://en.wiktionary.org/wiki/ad_hoc) the usage in this case meaning impromptu i guess.

Anyway gate line filtering is very useful for bias noise filtering, as such R & C can be added and values chosen for a particular cut-off.

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loose-electron
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Re: bias decoupling capacitors
Reply #6 - Sep 11th, 2008, 10:31am
 
Agreed with above on this being a useful strategy. A couple of ideas here:

1. Figure out the minimal pole placement needed for the roll off point. Frequency of interest in a mixed signal system is generally the system clock and all of its harmonics.

2. Bias distribution over long distances, should NOT be done as a gate voltage. Convert the bias control to a current, pass the current across the chip, and then recreate the gate voltage locally in a diode connected transistor. This avoids ground noise modulation issues, and also avoid matching problems with widely seperated MOS devices.

3. When the bias current arrives at the local location, pass it thru an RC filter as it goes into the MOS diode. The LPF that you get there is working against a high impedance source (the remote current source) to get lower frequency pole (for the same C in the LPF) and the series resistance helps push the LPF pole lower in frequency for noise capacitively coupled into the wire in the long transit path across the chip.

4. That local filter capacitnace has a constraint of a minimum pole placement and size, but as you get into layout of the chip, if some spare space becomes avaialble, fill the available space with a bigger C. Can not hurt and might help.

5. As a general rule, I ***never*** send a chip out with white space in the layout. If its not filled with spare parts for metal mask fixes after the first tapeout, its filled with power supply decoupling or bias decoupling.

Not sold in stores!

:)

Jerry
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hzfeiyun
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Re: bias decoupling capacitors
Reply #7 - Sep 11th, 2008, 10:54pm
 
loose-electron wrote on Sep 11th, 2008, 10:31am:
Agreed with above on this being a useful strategy. A couple of ideas here:

1. Figure out the minimal pole placement needed for the roll off point. Frequency of interest in a mixed signal system is generally the system clock and all of its harmonics.

2. Bias distribution over long distances, should NOT be done as a gate voltage. Convert the bias control to a current, pass the current across the chip, and then recreate the gate voltage locally in a diode connected transistor. This avoids ground noise modulation issues, and also avoid matching problems with widely seperated MOS devices.

3. When the bias current arrives at the local location, pass it thru an RC filter as it goes into the MOS diode. The LPF that you get there is working against a high impedance source (the remote current source) to get lower frequency pole (for the same C in the LPF) and the series resistance helps push the LPF pole lower in frequency for noise capacitively coupled into the wire in the long transit path across the chip.

4. That local filter capacitnace has a constraint of a minimum pole placement and size, but as you get into layout of the chip, if some spare space becomes avaialble, fill the available space with a bigger C. Can not hurt and might help.

5. As a general rule, I ***never*** send a chip out with white space in the layout. If its not filled with spare parts for metal mask fixes after the first tapeout, its filled with power supply decoupling or bias decoupling.

Not sold in stores!

:)

Jerry



learn a lot, thanks
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loose-electron
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Re: bias decoupling capacitors
Reply #8 - Sep 15th, 2008, 8:31pm
 
not a problem, glad to be of help!

jerry
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Jerry Twomey
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Berti
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Re: bias decoupling capacitors
Reply #9 - Sep 17th, 2008, 1:33am
 
Just an other comment:

Current mirrors with low pole-frequency noise filters need more time for start-up. This might become a problem in certain applications (e.g. wireless transceivers), where
the chip has to be ready within a given time.

Cheers
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ACWWong
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Re: bias decoupling capacitors
Reply #10 - Sep 17th, 2008, 3:44am
 
Berti wrote on Sep 17th, 2008, 1:33am:
Just an other comment:

Current mirrors with low pole-frequency noise filters need more time for start-up. This might become a problem in certain applications (e.g. wireless transceivers), where
the chip has to be ready within a given time.

Cheers


yes thats a good point, startup and power down time needs design consideration/solution.
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