If it is a subwoofer amp then set it at about 80 hz.
The differential equation for a capacitor is dv/dt = i/c. Set that up in a circuit and force an AC power source, such as sin(theta), and you will see that lowering the frequency will increase the equivalent resistance. I'll leave that exercise for you. The net result is that a series capacitor is a high-pass filter, while a parallel capacitor is a low-pass filter.
Hunting in a DC motor, characterized by oscillations around a set point, can be mitigated by tuning the control system. Implementing a PID controller with appropriate gains can help stabilize the motor's response. Additionally, incorporating damping techniques, such as adding a low-pass filter to the feedback loop or using mechanical dampers, can reduce oscillations. Ensuring proper alignment and minimizing external disturbances can also contribute to smoother operation.
Importance of frequency transformation in filter design are the steerable filters, synthesized as a linear combination of a set of basis filters. The frequency transformation technique is a classical.
As we know numerical relays use DIGITAL SIGNAL PROCESSOR as its computational hardware and based on microprocessor. WORKING: Analog input is feed into the anti aliasing filter which is a low pass filter.Output of this filter is feed into the sample and hold circuit , frequency of sampling should be twice of our highest frequency of interest(according to the nyquist criterion).if sampling frequency kept low than aliasing input may occur. after the sampling, signal are feed into the multiplexer,where all the signal get multiplexed and we have a single signal.this signal is feed into the analog to digital converter.this digital signal is feed into the microprocessor and microprocessor generates control signal according to its input. for example if you are using N.R. for over-current protection than you should set a value of current in your program.if the value of current passes through the circuit is greater than the set value..than N.R. enables the circuit breaker and hence our system is protected..
When testing the current draw your digital multimeter should be set on the current.
A low pass removes frequencies ABOVE a set level. A high pass removes frequencies BELOW a set level. A separate high pass filter can be used to route only frequencies over, say, 80 Hz to your main speakers (if your receiver/processor did not have this function). Then you would set the low pass filter on the subwoofer to 80 Hz to reject signal above that level.
set the dip switches on the back to low pass filter and put limiter on to save overdriving
If you're talking about your pool filter, it should be set to filter or run. Use the bypass or recirculate setting if you wish to circulate the water without having the water pass through the filter. Use the backwash setting to clean the filter.
The differential equation for a capacitor is dv/dt = i/c. Set that up in a circuit and force an AC power source, such as sin(theta), and you will see that lowering the frequency will increase the equivalent resistance. I'll leave that exercise for you. The net result is that a series capacitor is a high-pass filter, while a parallel capacitor is a low-pass filter.
Should be set to Filter in normal circumstances, if particularly soiled, set to waste to save excessive dirt in filter.
In low light conditions, the ISO should be set to a higher value for optimal exposure.
LPF setting: typically 60-100Hz. Most use ~80Hz. Depending on the sub and the type of music You listen to, if set too low the sub won't put out the wanted frequencies; to high and power is wasted on higher frequencies.
When simmering, the stove should be set to a low or medium-low temperature, typically around 180-200F (82-93C).
Type in the letter "I" and you should be all set :)
It could be a number of things...such as...idle set to low, poor carb set up, low fuel pressure from pump and yes..a plugged fuel filter...start with the filter first and then move to the larger more expensive components.
No, not if the filter is set to backwash or waste.
when powering a sub - sub sonic filters out the low frequencys that rob ure amplifier of power. typically below 45 htz or lower. bass boost gives it a peak in power when the bass hits. the higher you set it the more pounding you'll get. set it to low pass, and the frequency to the frequency response of the sub. the sub should say on its packaging or online what frequency it responds to until a -1 or -3 drop in db. no sense in amplifieing a signal and sending it to the sub if the sub doesnt respond to it anyways, it becomes a waste of power. Gain/input sensitivity - turn volume on H/O to 3/4 and gain on amp all the way down. gradually turn up the gain until distortion or over excursion occurs. when it does, pull the gain back a bit. for speakers - set to high pass slightly below the frequency that your subwoofer is set at. no subs? set to full range. No subsonic filter is needed as its allready filtered out by the highpass filter. and tune the gain and bass boost the same as stated above. sidenote: bass boost is pretty much up to personal tatse... mine is set to max :P lol