Building a Custom Schmitt Trigger with Variable Trigger Points

In summary, the conversation is about finding an inexpensive schmitt trigger with variable trigger points and the capability to handle a maximum current of 3A. The suggestion is to use discrete transistors to build the circuit and close a positive feedback loop to achieve the desired hysteresis characteristic. The type of input (differential or single-ended) will also affect the circuit topology. More specific requirements are needed to suggest suitable circuit topologies.
  • #1
soidal
3
0
Hello,

I'm looking for inexpensive schmitt trigger that has variable trigger points (30v - 50v) and that will handle max current of about 3A. I would very much appreciate your pointers.

PS
Are there schmitt triggers that triggers at certain negative voltage? (for example, does not trigger at -39v but triggers at -40v)
 
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  • #2
An op-amp can be wired as a schmitt trigger.
 
  • #3
soidal said:
Hello,

I'm looking for inexpensive schmitt trigger that has variable trigger points (30v - 50v) and that will handle max current of about 3A. I would very much appreciate your pointers.

PS
Are there schmitt triggers that triggers at certain negative voltage? (for example, does not trigger at -39v but triggers at -40v)

That is something that you should make out of discrete transistors that will handle the voltages and currents that you specify. Do you want a differential input or a single-ended input? You will basically build up the basic circuits of an opamp/comparator (as NoTime says), and close a positive feedback loop to give you the Schmidt trigger hysteresis characteristic that you want. If you are more specific in your requirements, we can suggest some circuit topologies for you to consider and experiment with.
 

Related to Building a Custom Schmitt Trigger with Variable Trigger Points

1. What is a High Power Schmitt Trigger?

A High Power Schmitt Trigger is a type of electronic circuit that is used for signal conditioning and noise filtering. It is designed to produce a square waveform output, and is commonly used in digital electronic devices.

2. How does a High Power Schmitt Trigger work?

A High Power Schmitt Trigger works by comparing the input voltage to two threshold levels, known as the upper and lower trip points. When the input voltage rises above the upper trip point, the output switches to a high state. Conversely, when the input voltage drops below the lower trip point, the output switches to a low state. This provides a hysteresis effect, which helps to filter out noise and produce a clean output signal.

3. What are the advantages of using a High Power Schmitt Trigger?

One advantage of using a High Power Schmitt Trigger is its ability to provide noise immunity and produce a clean output signal. It also has a wide operating voltage range and can handle high power loads, making it suitable for a variety of applications. Additionally, it is relatively simple and inexpensive to implement in electronic circuits.

4. What are the common applications of a High Power Schmitt Trigger?

A High Power Schmitt Trigger is commonly used in digital electronic devices, such as computers, microcontrollers, and communication systems. It is also used in power supplies, motor control circuits, and audio amplifiers. Its ability to provide noise filtering and produce a clean output signal makes it suitable for a wide range of applications.

5. Are there any limitations or drawbacks to using a High Power Schmitt Trigger?

One limitation of using a High Power Schmitt Trigger is its relatively slow response time compared to other types of signal conditioning circuits. It also requires a stable power supply and may be sensitive to fluctuations in voltage. Additionally, it may not be suitable for applications that require precise triggering at very low input voltages.

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