Direct coupling
direct coupling
All amplifier typically exhibit a band-pass frequency response. The cut off frequency in the low end is usually determined by the coupling band bypass capacitor .and the high frequency limit is typically determined by internal capacitances in the transistor itself.
Direct coupling provides good frequency response and also very good DC amplification.It is simple to implement.
coupling capacitors are generally used to couple the the AC component of voltage to the DC component(biased voltage) of the transistor amplifier . As we know that the capacitor itself has some reactance which is variable with the applied frequency Rc=1/wc where w=frequency in radians = 2*pi*f and f= frequency of circuit. and, V=VC+VIN VC= voltage drop on capacitor VIN= resultant voltage available for the transistor for amplification so as, frequency increases reactance decreases drop on C decreases so, voltage available for transistor increases and now you can analyse yourself for the case if frequency decreases
At high frequency the capacitor coupling the stages has low reactance, therefore the net resistance of that stage is not equal to next stage, due to this poor impedance matching the power of this stage is not transferred fully to next stage and hence gain falls. And also at high frequency transistor capacitance comes into existence which provides feedback and it thus lowers gain.
Because of transfer functions and the response of the scope
All amplifier typically exhibit a band-pass frequency response. The cut off frequency in the low end is usually determined by the coupling band bypass capacitor .and the high frequency limit is typically determined by internal capacitances in the transistor itself.
Merit: RC-coupled amplifiers are simple and inexpensive to design and construct, providing good frequency response over a wide range of frequencies. Demerit: They have limited low-frequency response due to the capacitive coupling, which can result in signal attenuation at lower frequencies. Additionally, they may suffer from coupling capacitor leakage, affecting the overall performance of the amplifier.
Frequency response is the measure of the frequency of the output a device gives in response to a stimulus that it receives. The frequency response is a characteristic of the device.
RC COUPLING :- is the most Commonly used Coupling Between the two stages of a cascaded or multistage amplifier because it is cheaper in cost and Very compact circuit and provides excellent frequency response. TRANSFORMER COUPLING :- Impedence Coupling results in more efficient amplification because no signal power is wasted in Inductor L. Such Coupling has the drawback of being larger, Heavier and Costlier than the RC COUPLING. Impedence Coupling is rarely used beyond audio range . by : Muhammad zubair.... muet student of telecom.
Response Frequency was created in 1990.
Bose speakers are best for frequency response.
Direct coupling provides good frequency response and also very good DC amplification.It is simple to implement.
coupling capacitors are generally used to couple the the AC component of voltage to the DC component(biased voltage) of the transistor amplifier . As we know that the capacitor itself has some reactance which is variable with the applied frequency Rc=1/wc where w=frequency in radians = 2*pi*f and f= frequency of circuit. and, V=VC+VIN VC= voltage drop on capacitor VIN= resultant voltage available for the transistor for amplification so as, frequency increases reactance decreases drop on C decreases so, voltage available for transistor increases and now you can analyse yourself for the case if frequency decreases
An Audio Spectrum analyzer (also known as a spectrograph) measures frequency response, noise and distortion characteristics in Radio Frequency circuits. Cell companies use them to measure interference before setting up a new tower.
The frequency response is nothing but how fast the diode is responding for the given amount of voltage from source. The resulting waveform will be in the frequency domain representation system.
N. A. Winslow has written: 'Frequency response of pressure sensitive paints' -- subject(s): Experimentation, Frequency measurement, Frequency response, Paints
frequency response curve helps us to find the bandwidth of particular amplifier circuit. Bandwidth is the range of frequency at which the amplifier works better....