Part Details for MAX613 by Maxim Integrated Products
Overview of MAX613 by Maxim Integrated Products
- Distributor Offerings: (0 listings)
- Number of FFF Equivalents: (0 crosses)
- CAD Models: (Request Part)
- Number of Functional Equivalents: (0 crosses)
- Part Data Attributes: (Not Available)
- Reference Designs: (Available)
Tip: Data for a part may vary between manufacturers. You can filter for manufacturers on the top of the page next to the part image and part number.
Part Details for MAX613
MAX613 CAD Models
Resources and Additional Insights for MAX613
Reference Designs related to MAX613
-
Monterey MAXREFDES15#: Ultra-Low Power, High-Accuracy 4–20mA 2-Wire Current-Loop Sensor
The Monterey (MAXREFDES15#) subsystem reference design is a high-accuracy industrial loop powered sensor transmitter that connects to any standard PT1000 resistance sensor and converts the linearized temperature to a 4–20mA current signal, which is immune to noise and remains constant over long distances.
-
Novato (MAXREFDES16#): 4-20mA Loop-Powered Temperature Sensor with HART
Enlarge+<p>×<p>Novato (MAXREFDES16#) block diagram.<p>$(document).ready( function() { $("#agram5817F-print").click(function(){ $("#agram5817F").printThis(); }); $("#agram5817F-mark").click(function(){ var shareUrl = getImageModalUrl(document.URL,'agram5817F'); addBookmark(' ', shareUrl, 'file'); }); } );
-
3V DACs Used in ±10V Applications
Many modern systems have the majority of their electronics powered by 3.3V or lower, but must drive external loads with ±10V, a range that is still very common in industrial applications. There are digital to analog converters (DACs) available that can drive loads with ±10V swings, but there are reasons to use a 3.3V DAC and amplify the output voltage up to ±10V.
-
High-Performance, High-Accuracy 4-20mA Current-Loop Transmitter Meets Toughest Industrial Requirements
This reference design shows how to develop a high-performance, high-voltage 2- or 3-wire 4–20mA current-loop transmitter suitable for industrial process control and smart sensors. Error analysis and overtemperature characterization data as well as hardware design and software are provided.
-
Using a DS1802 Pushbutton Digital Potentiometer to Create an Audio Preamplifier with Attenuator
This application note discusses how to best bias the AC signal to within the DC supply range and how to use digital potentiometers in circuits designed for mechanical potentiometers. This understanding is crucial to effectively using the DS1802 in a pushbutton-controlled audio preamplifier circuit.