Is alloy resistance really better than thick film resistance under the same nominal parameters? The answer is: Yes, alloy resistors are indeed better than thick film resistors in the vast majority of applications that have strict performance requirements.
Thick film resistors are electronic components made by depositing resistive materials on an insulating substrate through screen printing and then high-temperature sintering. Compared with thin film resistors, thick film resistors use thicker resistance layers (usually up to 100 μ m), which gives them unique advantages in power handling, cost control, and environmental adaptability.
resistors are one of the most fundamental and universal components, and their performance and reliability are directly related to the stable operation of the entire circuit system. Among various resistance technologies, thick film resistors dominate the market due to their unique manufacturing process and excellent comprehensive performance.
Viking thick film resistors occupy an important position in the electronic components market due to their high precision, good temperature stability, and wide range of applications. Its thick film resistor series has the core advantages of high resistance value, high temperature resistance, corrosion resistance, etc., and is widely used in fields such as power, industrial control, and automotive electronics. The following is an analysis of the core series and technical characteristics of Guangjie thick film resistors:
As a leading global supplier of passive components, TA-I's thick film resistor product line is widely used in consumer electronics, industrial control, automotive electronics, and other fields due to its core advantages of high precision, high power, and strong environmental adaptability. The following is a systematic review of the thick film resistor product matrix from four dimensions: series classification, technical characteristics, application scenarios, and selection guidelines.
Anti surge resistors have higher costs compared to ordinary thick film resistors, and their price differences are mainly determined by material upgrades, process complexity, testing and certification costs, and market demand characteristics. The specific reasons are as follows:
Under the premise of the same parameters, surge resistance can theoretically replace ordinary thick film resistors, but it needs to be comprehensively judged based on specific application scenarios. The following is a technical analysis:
LIZ's thick film resistor product line covers a wide range of needs from basic circuits to high-end industrial applications with diverse series designs and high-performance features. The following provides a detailed analysis based on its core series classification, parameter characteristics, and application market:
Thick Film LowOhmic Resistors are resistance devices manufactured based on thick film technology, typically ranging from milliohms (m Ω) to several ohms (Ω), designed for current detection, power distribution, and high reliability scenarios.
Thick film resistors are called "industrial rice" because, like rice, they are an indispensable "basic ingredient" in the electronics industry. Its wide range of application fields, low cost and efficient production characteristics, and stable and reliable performance collectively constitute its core position in industry. Whether it is daily consumer electronics or high-end industrial equipment, thick film resistors silently play a key role in supporting the operation of the entire electronics industry.
