1.2K Ohm resistor

Application of 1.2K Ohm resistor

1.2K resistor is a very common resistor. It is widely used and is an important part of the precision circuit. It can do surprising things. If you want to know more about the resistor, please authenticate this article.

What is a 1.2K Resistor?

1.2k ohm resistor refers to the resistance value of a resistor 1.2k ohm. The resistance is the physical quantity that indicates the size of the conductor to the current hindering the current, and its unit is Om (ω). In the circuit, the resistance can limit the size of the current, separate pressure or diversion. It can also be used as a matching between circuit components to ensure the correct transmission of signals or energy.

1.2k ohm resistor is a resistor with a specific resistance value. It can be a fixed resistor, variable resistor, or special type of resistor (such as thermal resistance, optical resistance, etc.), depending on application requirements. In the circuit, it can limit the current, adjust the voltage, or implement other specific functions according to the design requirements of the circuit.

When selecting a 1.2k ohm resistor, in addition to the resistance itself, it is necessary to consider parameters such as power capacity, accuracy, and temperature coefficient. The power capacity determines the maximum power that the resistor can bear safely, while the accuracy affects the accuracy of the resistance value, while the temperature coefficient describes the condition where the resistance value changes with temperature.

What Is The Color Code Of The 1.2K Resistor?

A 1.2K resistor has a color code of brown, red, red, and gold. Here’s how to interpret the color code:

The first band is brown, which represents the number 1. The second band is red, which represents the number 2. The third band is also red, which means there is an additional zero that needs to be added to the number. So the actual value of the resistor is 12 with one zero added, which is 1.2 in scientific notation.

The fourth band is gold, which represents the tolerance of the resistor. Therefore, a 1.2K resistor with a tolerance of +/- 5 percent would have the color code of brown, red, red, and gold.

1.2k ohm resistor application

1.1.2K Ohm’s resistance value is applied in multiple fields, depending on the design and needs of the circuit or system. The following are some possible application scenarios:

2. Electronic circuit: In the electronic circuit, the resistance is used to limit the matching of current, voltage, diversion or as a match between circuit components. 1.2K Ohm resistor can be used for these purposes according to the needs of the circuit.

3. Sensor: some types of sensors (such as photoresistid resistance, thermistor, etc.) may have 1.2k ohm’s resistor value or its nearby resistance range. These sensors can detect environmental parameters (such as light intensity, temperature, etc.) and convert them to resistance changes, and then convert them into measuring signals through circuits.

4. Measurement and calibration: In electrical measurement, accurate resistance is used to calibrate the measurement equipment or as a reference resistance. 1.2K Ohm’s resistors may be used in such applications, especially in calibration and measurement tasks that require medium resistance range.

5. Safety and protection: In certain circuits, the resistance is used to limit the current to protect the circuit component from the damage to the large current. 1.2K Ohm’s resistor may be used for such purposes, especially in circuits that require medium current restrictions.

6. Communication and signal processing: In the communication system and signal processing circuit, the resistance is used to match the radio impedance, attenuation signals, or perform other signal processing tasks. 1.2K Ohm’s resistors may play a role in these applications.

7. Power and battery management: In the power supply and battery management system, the resistance is used in the functions of current sampling, overcurrent protection or battery power detection. 1.2K Ohm resistor may be used for these purposes to achieve precise management of power or battery.

1.2K resistor

The role of 1.2k ohm resistor in the switch circuit

● Flow limit effect: When there is an inductance or capacitance in the circuit, they will generate an inductance or capacitor response when switching, thereby generating instantaneous changes in voltage and current. These instantaneous changes may cause damage to the components and switch tubes in the circuit. In this case, the 1.2 ohm resistor can be used as a restricted resistance to limit the instantaneous changes of the current, thereby protecting the components and switch tubes in the circuit.

● Stabilization: When the load changes in the circuit, it may cause the voltage change. The change in this voltage may cause other components in the circuit to be affected. In this case, 1.2 Ohm resistor can be used as a voltage resistance, which is to reduce the output voltage of the stable circuit by generating a constant voltage.

● Current detection function: 1.2 Ohm resistor can also be used as current detection resistance. By detecting the voltage drop at both ends of the resistance, the current in the circuit can be calculated.

Precautions for using 1.2k ohm resistor

●Make sure the power rating of the 1.2K resistor is sufficient for the circuit. Exceeding the power rating can cause the resistor to overheat and possibly fail.

●Verify the resistor’s tolerance: Resistors have a tolerance, which specifies how close the actual resistance value can be to the nominal resistance value. Make sure the resistor’s tolerance is acceptable for your circuit’s requirements.

●Make sure the resistor is installed in the correct orientation. Otherwise, you may encounter unexpected results.

●Make sure the resistor is not exposed to any high temperatures, humidity, or other environmental conditions.
Frequently Asked Questi


1.2K Ohm resistor is one of the indispensable basic elements in the electronic circuit. Its accurate resistance and extensive application make it play an important role in various circuit design. In practical applications, the appropriate resistance types and parameters should be selected according to the specific circuit design requirements and performance requirements.