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Images
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Mfr.Part #
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In Stock
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Manufacturer
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Description
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Package
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MIC842LBC5 TR | 37713 | Microchip Technology | IC COMPARATOR 1 W/VOLT REF SC70 | 5-TSSOP, SC-70-5, SOT-353 |
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LMV393MUTAG | 20307 | onsemi | IC COMPARATOR 2 GEN PUR 8UDFN | 8-UFDFN |
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NCX2220GM,125 | 52607 | NXP USA Inc. | IC COMPARATOR 2 GEN PUR 8XQFNU | 8-XFQFN Exposed Pad |
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TSX393IQ2T | 6798 | STMicroelectronics | IC COMPARATOR 2 CMOS 8DFN | 8-UFDFN Exposed Pad |
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LMV331SE-7 | 30443 | Diodes Incorporated | IC COMPARATOR 1 GEN PUR SOT353 | 5-TSSOP, SC-70-5, SOT-353 |
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AP331AWRG-7 | 58323 | Diodes Incorporated | IC COMPARATOR 1 GEN PUR SOT25R | SC-74A, SOT-753 |
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LM2903EYFJ-CE2 | 12943 | Rohm Semiconductor | IC COMPARATOR 2 GEN PUR 8SOP | 8-SOIC (0.154", 3.90mm Width) |
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LM2901EYFV-CE2 | 15516 | Rohm Semiconductor | IC COMPARATOR 4 GEN PUR 14SSOPB | 14-LSSOP (0.173", 4.40mm Width) |
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TS331IQT | 5788 | STMicroelectronics | IC COMPARATOR 1 GEN PUR | 6-UFDFN |
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TSX3704IQ4T | 19497 | STMicroelectronics | IC COMPARATOR 4 CMOS 16QFN | 16-VFQFN Exposed Pad |
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LM2903WYPT | 58859 | STMicroelectronics | IC COMPARATOR 2 GEN PUR 8TSSOP | 8-TSSOP (0.173", 4.40mm Width) |
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TS985IJT | 53067 | STMicroelectronics | IC COMPARATOR 1 GEN PUR 6CSP | 6-UFBGA, CSPBGA |
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MAX989EUA-TG069 | 4060 | Analog Devices Inc./Maxim Integrated | MICROPOWER, LOW VOLTAGE, UCSP/SC | Bulk |
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LA6393DL-E | 58456 | Sanyo | HIGH-PERFORMANCE QUAD COMPARATOR | Tube |
Comparators
1. What are Linear Comparators?
Basic Definition: A linear comparator is an electronic circuit that compares the magnitude relationship of two analog input signals and outputs a high/low level digital signal as the comparison result. When the input signal exceeds the preset threshold, the output is high level, otherwise the output is low level.
The Meaning of “Linear”: refers to the response stage before the input signal reaches the threshold, there is a linear relationship between the output and the input; but the overall function is still to trigger the state jump through the threshold, rather than continuously amplifying the signal.
2. What are the Key Characteristics of Linear Comparators?
Response Characteristics: The linear response to the input signal is limited to a specific range near the threshold, and it is essentially still a discontinuous switching device.
Difference from Hysteresis Comparator: Hysteresis comparators (such as Schmitt triggers) form a hysteresis loop through positive feedback to resist interference, while linear comparators do not have this feature, and the output may be falsely triggered due to noise.
Basis for Component Classification: Although it is called “linear”, its working mode involves state mutations and belongs to the category of nonlinear components; the “linear” in the name only describes the local characteristics before the threshold.
3. What are Linear Comparators Used for?
Signal Interface Conversion: used for threshold detection of analog signals in analog-to-digital converters (ADCs) to achieve the transition from analog to digital signals.
Protection and Monitoring Circuit: used for voltage monitoring, overvoltage/undervoltage protection systems, and real-time detection of power supply or signal anomalies.
Sensor Signal Processing: cooperate with sensors (such as photosensors and pressure sensors) to compare signals and trigger subsequent control logic.
4. Actual Product Examples for Linear Comparators
Some domestic analog chip manufacturers (such as Linearin) have launched high-performance comparator product lines, covering low power consumption, high precision, and other types, which are used in industrial control, the Internet of Things, and automotive electronics.
5. Summary
Linear comparators are key threshold judgment devices in analog circuits. Their “linear” characteristics are reflected in the local linear response of the input before the threshold. They are suitable for scenarios that require precise level detection, but attention should be paid to anti-interference design to avoid false triggering.