The MCP6541 is a push-pull, single comparator that operates from 1.6 V to 5.5 V with a typical quiescent current of 600 nA and a maximum of 1 microamp. The device is offered in the eight-lead PDIP, SOIC, MSOP, and five-lead SOT-23 packages
Microchip Technology MCP6541 series Linear Comparators
Comprehensive Guide to MCP6541 Integrated Circuits (ICs) Linear Comparators
This post introduces you to the Key Component Features, Diverse Applications, Associated Series Parts, Technical Documents(PDF Datasheets, User Guides), Frequently asked questions, and Related Series of Microchip Technology MCP6541 series Linear Comparators products.
FEATURES
- Low power consumption
- Fast response time
Applications
- Motor drives
Associated Products
| Part Number | Description | Stock | RFQ |
|---|---|---|---|
| MCP6541-I/P | MICROCHIP - MCP6541-I/P - GENERAL PURPOSE COMPARATOR SINGLE 4 uS DIP-8 | 605 | BUY |
| MCP6541T-E/OT | MICROCHIP - MCP6541T-E/OT - Komparator analogowy, Pojedyncze, Niskiej mocy, 1 komparator, 4 µs, 1.6V do 5.5V, SOT-23 | 38 | RFQ |
| MCP6541UT-I/LT | MICROCHIP - MCP6541UT-I/LT - IC, COMP, 1.6V, SINGLE, P-P, SC70-5 | 9000 | BUY |
| MCP6541T-I/LT | MICROCHIP - MCP6541T-I/LT - GENERAL PURPOSE COMPARATOR, SINGLE, 4 uS, SC-70-5 | 9000 | RFQ |
| MCP6541T-I/OT | MICROCHIP - MCP6541T-I/OT - Analoger Komparator, Rail-to-Rail, Sub-Mikroampere-Komparator, 1 Komparator, 4 µs, 1.6V bis 5.5V | 5 | RFQ |
| MCP6541UT-E/OT | MICROCHIP - MCP6541UT-E/OT - Analoger Komparator, Einzelständer, Sub-Mikroampere-Komparator, 1 Komparator, 4 µs, 1.6V bis 5.5V | 3000 | RFQ |
| MCP6541-I/MS | IC COMP PP I/O SNGL 1.6V 8MSOP | 15 | BUY |
| MCP6541-E/MS | MICROCHIP MCP6541-E/MS IC, COMP, 1.6V, SINGLE, P-P, 8-MSOP | 6 | BUY |
| MCP6541T-I/SN | IC COMP PP I/O SNGL 1.6V 8SOIC | 3300 | BUY |
| MCP6541T-E/SN | IC COMP 1.6V SNGL P-P 8SOIC | 44 | BUY |
| MCP6541RT-I/OT | IC COMP 1.6V PUSH-PULL SOT23-5 | 90 | BUY |
| MCP6541T-I/MS | IC COMP PP I/O SNGL 1.6V 8MSOP | 2200 | BUY |
| MCP6541T-E/MS | IC COMP 1.6V SNGL P-P 8MSOP | 5000 | RFQ |
| MCP6541T-E/OTGVAO | IC COMP 1.6V SNGL P-P SOT23-5 | 0 | RFQ |
| MCP6541UT-E/OTVAO | IC COMP PSH-PLL 1.6V SGL SOT23-5 | 0 | RFQ |
| MCP6541RT-E/OT | MICROCHIP - MCP6541RT-E/OT - COMP, 1.6V, SINGLE, P-P, SOT23-5 | 280 | BUY |
| MCP6541-E/P | MICROCHIP - MCP6541-E/P - COMPARATOR, SINGLE PUSH/PULL, DIP8 | 381 | RFQ |
| MCP6541-I/SN | MICROCHIP MCP6541-I/SN. Voltage Comparator IC | 82 | BUY |
| MCP6541-E/SN | COMPARATOR, 1.6V, SMD, SOIC8, 6541 | 0 | BUY |
Technical Documents
- MCP6541(1R,1U,2,3,4) Datasheet
- Analog and Interface Product Guide
- MCP6541 28/Nov/2019
- Packing Changes 10/Oct/2016
- Microchip-company-68.pdf
- Bond Wire Qualification 13/Jun/2016
- Bond Wire 29/Nov/2017
- Mult Devices 23/May/2018
- Mult Devices 08/Aug/2017
- Mult Devices Assembly 20/Dec/2017
- Bond Wire 12/Apr/2017
- LT-Microchip-datasheet-11051911.pdf
Related Series
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Texas Instruments TLV6710 series Linear Comparators
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Frequently Asked Questions
What are the similar products or Substitute Components of Microchip Technology MCP6541 series Linear Comparators
Texas Instruments LMV331: The LMV331 is a low-voltage, low-power comparator with rail-to-rail input and output. It offers similar specifications and functionality to the MCP6541 and can be considered as a substitute in many applications. Analog Devices AD8561: The AD8561 is a high-speed, low-power comparator designed for precision voltage sensing. It has rail-to-rail input and output capability and can be used in applications similar to the MCP6541. Maxim Integrated MAX9021: The MAX9021 is a low-power, high-speed comparator with rail-to-rail input and output. It provides fast response times and low propagation delay, making it suitable for applications requiring precise voltage comparisons.
How do I choose a comparator for my application?
Determine the application requirements: Before selecting a comparator, you need to determine the requirements of your application. This includes the input voltage range, output voltage range, response time, power consumption, and other factors that are important for your specific application. Select a comparator with appropriate input and output voltage ranges: The input voltage range of the comparator should be compatible with the input signal of your circuit or system. The output voltage range should be compatible with the input of the next stage in your circuit or system. Consider the response time: The response time of the comparator should be fast enough to meet the requirements of your application. If you need a fast response time, choose a comparator with a low propagation delay.