The counter is widely used in digital devices to count the number of signals or any other event. It stores information and creates flip-flop groups using clock signals. Counters help in measuring the time and frequency as well as commence the counting operation. This enhances the memory location based on the application and device.
Counters have two basic types. Asynchronous counter and synchronous counters. Moreover, the ‘Mod’ refers to the modulus counter, which determines the number of states that needs to apply before calculating the signals. Frequency counters are widely used in digital clocks, timer circuits, frequency dividers, and ana-to-digital converters.
This article gives you a detailed insight into how a frequency counter works, its types, advantages, features, and applications. So let’s dive into it.
What Is a Frequency Counter Circuit?
Frequency counters refer to a type of device that integrates various types of radio frequency devices to measure the time and frequency of digital input signals.
They have the ability to measure the time and frequency of repeated input digital signals precisely and accurately. Moreover, the frequency counter also refers to a frequency meter as it calculates the time and frequency of input pulses and square wave signals.
RF range devices also use this. They simply use Prescaler, which minimizes the frequency of the signal and helps a digital circuit to operate. Moreover, it shows the frequency of analog or digital signals over the display screen in Hz.
The counter starts counting the pulses when the number of pulses occurs in a given interval of time. It transfers them to a frequency counter device. This, however, shows the frequency pulse range and sets the counter to zero. It has a digital display which makes it easy to use and operate. Moreover, it gives accurate results at affordable prices.
Block Diagram Explanation of Frequency Counter Circuit
The block diagram of frequency contains threshold, input conditioning, input signal, AND gate, display, flip-flop, decade dividers, latch or counter, and accurate clock or time base.
1. Input
When a counter receives input signals with high-impedance input and low-impedance output, it sends it to an amplifier which converts the input signals into a rectangular wave or square wave for operating in a digital circuit. Thresholds and input conditions are utilized in amplifying and buffering input signals. Moreover, it uses Schmitt triggers to manage the additional counting pulses that occur because of the noise and disruption at the sides. Therefore, controlling the counter sensitivity and trigger level can minimize the counting of extra pulses.
2. Clock
An accurate timebase or clock helps in creating various timing pulses at specified time intervals. Moreover, it uses high-quality crystal oscillators for accurate and controlled timing signals. This cloak is then applied over the decade divider.
3. Decade Dividers & Flip Flop
The input and clock signals produce pulses that go through a decade divider. It divides the timing signals. The received output then goes through a flip-flop. It creates a precise enabling pulse to go to the AND gate.
4. Gate
The accurate enabling pulse from the flip-flop and input signal series then goes through the AND gate. Here it creates a pulse series at an accurate time interval. If the input signal has a 1 Mhz frequency and passes through the open gate just for 1 second, it creates 1 million output signal pulses.
5. Counter & Latch
The output from the gate then goes to the counter. It computes the number of pulses obtained from input signals. However, the latch holds the signals of output while the counter calculates the pulses and displays the figures over the display. The latch goes through 10 stages of counting and holding the pulses.
6. Display
The display shows the output signals received from the latch and the counter and displays them in an understandable format. It shows the signal frequency. It uses display screens like LED or LCD. As every decade counter has one digit, it displays the rest of the information over the display.
Circuit Diagram Explanation of Frequency Counter Circuit
The diagram of the frequency counter includes a counter, two timers, a potential resistor, an 8051 microcontroller, a generator of square waves, and a display (LCD).
It uses an integrated circuit 1555 timer. It produces clock signals in one second of the specified time interval. Arduino UNO acts as a generator of square waves. Both the IC 555 counter and generator of a square wave refer to an astable multivibrator. Other than that, it uses an LCD of 16×2 inches which shows output signal frequency in Hz.
It uses an 8051 microcontroller counter and IC 555 timer. The integrated circuit 555 timer produces oscillating signals using a 99% duty cycle and gives output signals with the highest interval period. The discharge resistor and threshold adjust in a way to get the required duty cycle value. It uses the duty cycle formula of
D = (R1+R2)/(R1+2R2)
The 8051 microcontroller counter generates the pulse frequency in Hz. As 8051 contains two timers, of which one acts as 0 timers and one-timer. At the same time, they operate in 0 modes and one mode. Timer 0 helps in producing a delay in time while timer 1 counts the number of pulses coming from the generator of the square wave.
Operating Principle of Frequency Counter Circuit
The generator of square waves produces a pulse that goes through the 8051 counter. It uses two modes of operation, delay the time and pulse counting. The 8051 counter calculates the input signal number of pulses at a given time interval. The output received from the counter then displays to an LCD of 16×2 which shows signal frequency in Hz. This is how a frequency counter works.
Major Types Of Frequency Counter Circuit
Frequency counters have two types that help in measuring the signal frequency. These types include Direct counting and Reciprocal.
· Direct Counting
This approach serves as the simplest and most common method to measure input signal frequency. First, it counts the input signal cycle every second. Then a common counter circuit is used to measure the frequency. This, however, does not give appropriate results and has limitations in measuring low-frequency resolution. It expands the time of the gate to measure the high resolution. For instance, to measure a high resolution of 1 MHz, then it needs a 1000 seconds interval to measure a one-time signal.
· Reciprocal Counter
This approach overcomes the drawback of the first direct counting approach. It calculates the input signal period rather than measuring the input signal cycles every second. It uses the formula F = 1/T to calculate the pulse frequency. However, the final resolution of frequency depends on input frequency independence and temporal resolution.
It has the ability to measure low frequencies at high resolution quickly. Moreover, it adjusts the trigger phrases and minimizes the noise. It measures input signal time and manages to maintain enough time resolution. Additionally, it does not cost much.
Other than these two frequency counters also have other types. This includes a panel meter, a frequency counter with a digital multimeter, and a handheld frequency counter. Additionally, a bench frequency counter which is used in electronic test devices, and a PXI frequency counter. It is used in control and test systems and shows frequency in the formality of PXI.
Advantages of Frequency Counter Circuit
Frequency counters offer various benefits and features. The measurement of square wave generating signal frequency happens in accurate time intervals. Moreover, frequency counters are vastly used in frequency measurement in the radio-frequency range.
It does not only give accurate results but also gives easy and quick. However, based on the usage and application, it costs less. Also, it makes sure that all frequencies must transmit within a band.
Applications of Frequency Counter Circuit
A frequency counter is used in a variety of applications and devices. Firstly it is used to measure the square wave generating signal frequency. It also measures the signal frequency from an oscillator.
It does not only measure the frequency but gives an accurate measurement. Moreover, it measures input signal frequency over the receiver and transmission line. Due to clock signals, it uses data transmission. Moreover, it only works in the range of RF. In addition, it can also measure high power transmission data frequency.
Frequently Asked Questions
What is the unit or symbol of word frequency?
Hertz or Hz is used as the unit of signal frequency.
What is the major benefit of a Frequency Counter Circuit?
A frequency counter is used to analyze accurate signal frequency produced from an oscillator or a square wave producer.
Which type of Frequency Counter Circuit is best to measure frequency with high values?
The high-frequency measurement uses an asynchronous and synchronous counter.
What is the meaning of Mod Counter?
Modulus counter refers to a Mod counter that uses clock signals to count a number of times a counter counts pulses sequence.
What Are The Two Main Techniques Of Frequency Counter Circuit?
Frequency counters use Reciprocal and Direct counting methods.
Conclusion
Frequency counters refer to a very sensitive device whose accuracy depends on the timebase precision. However, the timebase may vary according to age, instability, poor design, and movement. Therefore, make sure to give extra care to the timebase while working with frequency counter projects.