Low Cost integrator CC4069

The low-cost integration circuit utilizes operational amplifiers as integrators; however, a CMOS inverter such as the CC4069 can also function as an integrator with favorable effectiveness at a low cost. The use of CMOS gates allows for an expanded linear region, enhancing this feature. The values of resistors R1 and R2 can be adjusted to meet specific frequency and amplitude requirements. Two 0.1 µF capacitors are included for compensation to prevent unnecessary oscillation. Other forms of integrated circuits may also be used in an inverted configuration, but they must be implemented without a buffer, meaning a single-stage gate is required.

The described low-cost integration circuit employs a CMOS inverter (CC4069) as a primary component, providing an economical alternative to traditional operational amplifier integrators. The CC4069 is a hex inverter, which means it contains six independent inverting gates that can be utilized in various configurations. When configured as an integrator, the inverter operates within its linear region, which is crucial for maintaining signal integrity and minimizing distortion.

The circuit design includes two resistors, R1 and R2, which can be adjusted to tailor the circuit's frequency response and amplitude characteristics. The selection of these resistors directly influences the time constant of the integrator, thereby affecting how quickly the circuit responds to changes in the input signal. This adaptability is advantageous in applications requiring precise control over integration time.

In addition to the resistors, two 0.1 µF capacitors are incorporated into the circuit to enhance stability and prevent oscillations that may arise from feedback loops. These capacitors serve as compensation elements, ensuring that the integrator operates smoothly without unintended signal fluctuations.

It is important to note that while other inverted configurations of integrated circuits can be utilized, they must be implemented without a buffer stage. This requirement emphasizes the need for a single-stage gate configuration, which simplifies the circuit design while maintaining the desired integrative properties.

Overall, this low-cost integration circuit demonstrates versatility and effectiveness in various applications, making it an attractive option for engineers seeking economical solutions without compromising performance. As shown for the low-cost integration circuit. Integrator operational amplifiers are generally used, but with a CMOS inverter CC4069 also constitute an integrator, and its effe ct is good, the cost is very low. With CMOS gates integrator is using its linear region have enlarged this feature. Circuits R1 and R2 may be varied to accommodate the requirements of frequency and amplitude. Two 0.1 F capacitors for compensation, to prevent unnecessary oscillation. Integrated circuit may also be other inverted form, but it must be without a buffer, that is, single-stage door.