Paper about application of ADuCM350

In summary, the conversation discusses the availability of papers and journals describing the application of the ADuCM350 device, also known as the "Electricity Meter on a Chip". The speaker mentions that Analog Devices has a lot of information on the device and asks the other person about their plans and research regarding the device's power metering accuracy, voltage and current measurements, and use of shunt resistors or transformers for isolation.
  • #1
intanaprilsm
2
0
Does anyone have papers or journals describing the application of ADuCM350 ?

Thanks for your information.
 
Engineering news on Phys.org
  • #2
intanaprilsm said:
Does anyone have papers or journals describing the application of ADuCM350 ?

Thanks for your information.
Analog Devices seems to have lots of information on this "Electricity Meter on a Chip" device:

http://www.analog.com/en/products/p...lers/precision-microcontrollers/aducm350.html

What are you planning on doing with it? What reading have you done so far about it? What kind of power metering accuracy do you need in your application? What voltages and currents will you be measuring? Will you be using a shunt resistor for the current measurement, or a CT? Will you be using direct measurement of the voltage, or will you use a transformer for isolation?
 
  • Like
Likes dlgoff

Related to Paper about application of ADuCM350

1. What is the ADuCM350 and what is its main application?

The ADuCM350 is a microcontroller developed by Analog Devices specifically for use in medical devices. Its main application is in wearable health monitoring devices, such as fitness trackers and heart rate monitors.

2. What are the key features of the ADuCM350?

The ADuCM350 has a low power consumption, high precision analog-to-digital converters, and built-in communication protocols. It also has a secure boot and encryption capabilities for data protection.

3. How does the ADuCM350 improve medical device design?

The ADuCM350's high precision analog-to-digital converters and low power consumption make it ideal for accurately measuring and monitoring biological signals, such as heart rate and blood pressure. Its built-in communication protocols also allow for easy integration with other devices and systems.

4. Can the ADuCM350 be used in non-medical applications?

Yes, while the ADuCM350 was specifically designed for medical applications, it can also be used in other industries that require high precision and low power consumption, such as industrial and environmental monitoring.

5. What are the potential challenges in using the ADuCM350 in medical devices?

Some potential challenges include ensuring proper calibration and accuracy of the analog-to-digital converters, as well as implementing proper security measures to protect sensitive patient data. Additionally, the small size of the ADuCM350 may make it difficult to work with for some engineers.

Similar threads

Question about my bachelor's GPA vs. my master's GPA and my PhD applications
    • STEM Academic Advising
Replies
7
Views
570
Journal selection advice for publishing my papers
    • STEM Academic Advising
Replies
7
Views
591
Programs Certificate Program in Medical Physics - Advice for a Bioengineer
    • STEM Academic Advising
Replies
3
Views
266
Solenoid wrapped with 2 wires?
    • Electrical Engineering
Replies
31
Views
2K
Is recieving such an email on desk rejection a good sign?
    • General Discussion
Replies
11
Views
1K
Calculate IC equalizer frequencies and gain
    • Electrical Engineering
Replies
1
Views
562
How Is the Surge in Fake Research Papers Impacting Science?
    • General Discussion
Replies
6
Views
434
Citation bias in published papers
    • General Discussion
Replies
3
Views
934
I Identity involving exponential of operators
    • Quantum Physics
Replies
2
Views
843
Other Becoming anxious since my paper was submitted to journals
    • STEM Academic Advising
Replies
8
Views
3K

Hot Threads

Recent Insights

Back
Top