Position: Index > Filter Circuit >

# First-Order Band-Pass Filter

2017-02-20 07:35

Declaration:We aim to transmit more information by carrying articles . We will delete it soon, if we are involved in the problems of article content ,copyright or other problems.

Application of first order band pass filter to find out the output voltage gain magnitude of specific

*. A specific range of frequency can pass through the*

**frequency***which has a specific bandwidth of this band pass filter.*

**amplifier**A band pass filter is a frequency selector. It allows one to select or pass only one particular band of frequencies from all other frequencies that may be present in a circuit. This type of filter has a maximum gain at a

*.*

**resonant frequency**A band pass filter is the combination of high pass and low pass filter combination. It has a pass band between two cut off frequency

*fH*and

*fL*such that

*fH*>

*fL*. Any input frequency outside this pass band is

*. There are two types of band pass filters wide band pass and narrow band pass. If the quality factor Q < 10 and Q > 10 then it would be wide band pass and narrow band pass filter.*

**attenuated**The relationship between Q, the 3-dB

*and the center frequency*

**bandwidth***fc*is given by,

According to Figure 01 of band pass filter circuit, there are two sections. One is first order high pass section and other is low pass section.

For first order high pass section the output voltage equation is, For first order low pass section the output voltage equation is,

Putting the value of first order high pass section output voltage from equation (1),

So the final voltage equation of first order band pass filter is,

The voltage gain magnitude of the band pass filter is equal to the product of the voltage

*of the high pass and low pass filters.*

**gain magnitudes**Therefore the equation (2) is, Where, = Total band pass gain

*f =*frequency of the

*input signal (Hz) = low cut off frequency (Hz) = high cut off frequency (Hz)*

The above first order low pass

*filter was designed by taking following precautions, a.*

**band width**Limited magnitude of input voltage was applied at the input, so that the

*must not be driven to saturation.*

**op-amp**b. Only selected frequency can pass through the filter.

c. Overall gain of the first order band pass filter is the multiplication of high pass filter gain and low pass filter gain.

Maybe you like

Similar Circuit Diagram

- RAZOR_SHARP_CW_FILTER
- CURRENT_DRIVEN_SALLEN_KEY_FILTER
- 1_kHz_4TH_ORDER_BUTTERWORTH_FILTER
- VARIABLE_FREQUENCY_AUDIO_BP_FILTER
- The Circuit Diagram of 60Hz Notch Filter Consist of INA110
- -18dB/octave Active Low-pass Filter Circuit (RC4558DN)
- Active dual two-stage bandpass filter circuit
- ACTIVE_LOW_PASS_FILTER_WITH_DIGITALLY_SELECTED_BREAK_FREQUEN
- DZW75-48/50(50II) high frequency rectifying filtering circui
- 2 ~ 33MHz band-pass filter circuit formed by low-pass and hi
- _HIGH_Q_NOTCH_FILTER
- Cascaded_IC_low_pass_filters
- 10MHz Band-Pass Filter Composed of OPA603
- F_V_converter_with_sample_hold_and_active_filter
- NOTCH_FILTER_CIRCUIT
- PINK_NOISE_FILTER
- SECOND_ORDER_VOLTAGE_CONTROLLED_FILTER
- 45_MHz_IF_AMPLIFIER_WITH_CRYSTAL_FILTER
- FIFTH_ORDER_CHEBYSHEV_MULTIPLE_FEEDBACK_LOW_PASS_FILTER
- ACTIVE_BAND_REJECT_FILTER
- IC_Iow_pass_filter
- The spectral character circuit of light filter
- Active Narrowband Filter Circuit
- Low pass filter for subwoofer
- COMBINATION_FILTER