everyone,
As far as I know the Full power bandwidth is the output bandwidth of the signal when it is made to obtain the max power from output
suppose max output voltage is +/- 10 V as prescribed in the data sheet and the slew rate is 600V/u sec , then the full power bandwidth will be
600/(2*pi*10) that is 9.548 MHz
Slew rate is found by SR = 2*pi*f*V, which f = frequency of signal, V = peak voltage of signal. After you find the slew rate Bom(full power bandwith) = SR / 2piV(pp). So in your case Bom = SR / 2*pi*5Vpp and it is always expressed in units of Hz.
A full and true "quasi complementary symmetry power amplifier" is an audio amplifier whose power output section is typically comprised of 2 of the same NPN output transistors, (generally matched) and 2 of the same PNP or NPN driver transistors, (also generally matched). Driven by dual matching + & - DC voltage power supply voltages. With the exception of the bias control circuit components, each half of the output circuit are exact mirror images of one another. Each half of the circuit amplifies the positive and negative half cycle of the audio signal. The theory is, "it is much more likely to perfectly match the performance of each half cycle of the amplifier by using this circuit design criteria. Only the most esoteric amplifier manufactures used this design in the late 60's and 70's.
Class C tuned amplifier is a large signal tuned amplifier that amplifies high power signals of the radio frequency range. The amplifier is said to be Class C if the output cycle obtained is less than half a cycle of the full input cycle. This means the transistor remains active for less than half a cycle so that only that much part of the input waveform is reproduced at the output with amplification. For the remaining part, the transistor remains inactive.
You can it will be safe and no damage will result. However it will blow sooner than the intended fuse would, so the amplifier will no longer have its full normal operating range.
Class C since output cycle is less than 90 degrees for a full input. But it has highest power gain going upto 98%. And the exact term used for distortion is Total Harmonic Distortion since the distortion produced will be in multiples of the fundamental frequencies.
operational amplifier
2. Half wave and full wave
An inverting amplifier having linear output characteristics is disclosed which includes additional n-channel and p-channel transistors coupled to a classic CMOS inverter circuit. The linear transfer characteristic is achieved with nearly full dynamic Vcc range. The invented amplifier yields a linear transfer characteristic by controlling the dimension ratios between each of the transistors. The wide dynamic range, wide bandwidth and low output impedance make the circuit well-suited for use as an output stage of a CMOS operational amplifier. Source - http://www.freepatentsonline.com/5113150.html
Slew rate is found by SR = 2*pi*f*V, which f = frequency of signal, V = peak voltage of signal. After you find the slew rate Bom(full power bandwith) = SR / 2piV(pp). So in your case Bom = SR / 2*pi*5Vpp and it is always expressed in units of Hz.
Possibly, if you turn the volume up, but not necessarily. You should attempt to match impedance (your amplifier is designed to have specific speaker impedances connected, if these are not connected it will not deliver full power).
Sw1-sw2 divides the collision domain and provides full media bandwidth to the hosts in the network.
yes
For the Dual BP1204 subwoofers, you should use a monoblock amplifier that can handle at least 600 watts RMS at 1-ohm impedance. This will ensure that the subwoofers receive enough power to deliver their full potential without risking damage to the amplifier or the subwoofers. Make sure to check the manufacturer's specifications for recommended amplifier power ratings as well.
A full and true "quasi complementary symmetry power amplifier" is an audio amplifier whose power output section is typically comprised of 2 of the same NPN output transistors, (generally matched) and 2 of the same PNP or NPN driver transistors, (also generally matched). Driven by dual matching + & - DC voltage power supply voltages. With the exception of the bias control circuit components, each half of the output circuit are exact mirror images of one another. Each half of the circuit amplifies the positive and negative half cycle of the audio signal. The theory is, "it is much more likely to perfectly match the performance of each half cycle of the amplifier by using this circuit design criteria. Only the most esoteric amplifier manufactures used this design in the late 60's and 70's.
The letters FPBW in Welding usually means Full Power Bandwidth. This paired with flange which means an arm or extension of a base. So in the welding world this is a piece that is to be welded or can be ordered.
Aeronautical Operational Control
Full Operational Capability