Part Details for MAXQ2000 by Maxim Integrated Products
Overview of MAXQ2000 by Maxim Integrated Products
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Part Details for MAXQ2000
MAXQ2000 CAD Models
Resources and Additional Insights for MAXQ2000
Reference Designs related to MAXQ2000
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Reference Design for Power-over-Ethernet (PoE) Midspan or Endpoint Insertion
This application note presents a reference design for Power-over-Ethernet (PoE) midspan or endpoint insertion. The reference design powers 4 to 192 Ethernet ports, and can be used in stand-alone mode or configured by a system-level microcontroller. Links to firmware and various support documents are provided.
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Modern PRTD Temperature Sensors and High-Resolution Delta-Sigma ADCs Enable Wide Range High-Accuracy Temperature Measurements
Many modern industrial, medical, and commercial applications require temperature measurements in the extended temperature range with accuracies of ±0.3°C or better, performed with reasonable cost and often with low power consumption. This article explains how platinum resistance temperature detectors (PRTDs) can perform measurements over wide temperature ranges of -200°C to +850°C, with absolute accuracy and repeatability better than ±0.3°C, when used with modern processors capable of resolving nonlinear mathematical equation quickly and cost effectively. This article is the second installment of a series on PRTDs. For the first installment, please read application note 4875, "High-Accuracy Temperature Measurements Call for Platinum Resistance Temperature Detectors (PRTDs) and Precision Delta-Sigma ADCs."
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Proven Implementations of the I²C Bus
This application note briefly reviews the history of the I<sup>2</sup>C bus. It then presents I<sup>2</sup>C configurations proven to ensure easy communication between the master and slaves on the bus. Examples include schematics and code. Appendix 1 contains helpful definitions of terms used in this article.
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Selecting SPI Clock Modes for Interfacing the MAX1132 ADC with the MAXQ2000 Microcontroller
The MAXQ2000 can interface with the MAX1132 using different clock modes: 8-bit, 16-bit, or a combination of both. This application note describes how to select an SPI™ clock mode that will optimize the performance of the MAX1132. Included in the application note are complete schematics and microcontroller firmware, as well as an example C program that was written and assembled for the IAR Embedded Workbench® for MAXQ®.
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Simple Wireless Temperature Monitor Also Has Data-Logging Capabilities
This design idea shows how you can design a simple wireless temperature-monitoring system with data-logging capabilities by using a local temperature sensor and an ASK transmitter and receiver pair.
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Display Different LED Sequences Using the MAXQ2000 Microcontroller with the MAX6970 LED Driver
This note shows an application circuit and provides all the firmware required to interface the MAXQ2000 microcontroller evaluation (EV) kit to the MAX6970, an 8-port, 36V constant-current LED driver. Included in this application note are schematics and microcontroller firmware. The example C program was written and assembled for the MAXQ® microcontroller with the IAR Embedded Workbench®.
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