Part Number: TIDA-010232
Tool/software:
I am working with the TIDA-010232 circuit and have encountered a couple of issues regarding voltage measurements and microcontroller integration. I am seeking your guidance on the following:
Case 1: Voltage Drop…
Part Number: TIDA-010232 Other Parts Discussed in Thread: AMC3330 , Tool/software: As per the reference design TIDA-010232 , We have designed an isolation monitoring circuit. But in our case Unlike the Reference design The AMC3330 amplified voltage ±2…
Part Number: TIDA-010232 Tool/software: Hi I am using the TIDA-010232 board to calculate the isolation resistance between PE and a 345VDC bus. The measured isolation resistance are with high values of error% as described below.
Calculated Vp and Vn using…
Part Number: TIDA-010232 Tool/software: Hello,
On TIDA schematic:
there is series resistor on + of OpAmp and no resistor on - OpAmp input. Is that ok?
Also, is there a 1500Vrms equivalenf for AMC3330DWE? So a Isolated OpAmp with DC/DC?
Part Number: TIDA-010232 Tool/software: Hi Team,
We are studying TIDA 010232.
1. This solution can be applied as monitor on DC and single-phase AC insulation resistor to PE, while can it apply on a 3-phase AC and insulation resistor monitor on N to PE…
Part Number: TIDA-010232 Tool/software: In our system we lack -VDC so, In this IMD design, we accommodate the positive voltage and ground. Currently, for testing, we are connecting the ground to -VDC and using 10 Mega Ohm resistors and 670 nF capacitors…
Part Number: TIDA-010232 Tool/software: Hello,
As far as I can tell, by using TIDA-010232, we can find insulation failures at positive and negative lines. But any failure before these lines i.e the battery pack itself, the device is not able to find…
Part Number: TIDA-010232 Hi,
According to the reference design TIDA-010232, in the scheme, the high voltage ground, low voltage low, and outer shell are all isolated,
Our current drone casing and low-voltage ground are short circuited. Is this solution…
Part Number: TIDA-010232 Greetings TI team,
I was doing some IMD research through the web and I found your reference design and I had some doubts about your isolation resistance calculation formulae. Both positive and negative formulae have a (Vdc + Vn…
