Part Number: INA350 Other Parts Discussed in Thread: TINA-TI Tool/software: From SBEM PVT LTD
Request for IBIS Model
Required IBIS Model
For EMC analysis.
As an amplifier with Gain of 10.
Part Number: TLV9062 Other Parts Discussed in Thread: INA351 Tool/software: Hi E2E
I am using TLV9056 as a differential amplifier to amplify the output from the current transformer (1:1000) of input frequency of 50Hz, this is to measure the line currents…
Hi Ramsey
My hope was that you might be able to pass this question on to someone who does know the internal design of class D ICs. I'm not looking for an exact spec, but rather an assessment for the delay and also a recommendation for ICs that have shortest…
Part Number: LOG114 Other Parts Discussed in Thread: OPA192 , LOG200 Hello engineers, I have a question here to ask you, the input circuit of the logarithmic amplifier after the precision inverter 1:1 conversion, is it possible to truncate the input current…
Hi Martin,
Performed measurements with a couple of PGA855EVMs. On this setup, I used a 2-channel waveform generator (Agilent 33500B) to generate the 3MHz and 3.3MHz fully-differential signal. The PGA855EVM was left un-modified with the input and output…
Hi Corry,
I assumed that you are looking for op amp level shift circuit. Enclosed is two references.
https://www.ti.com/lit/an/sbaa374/sbaa374.pdf?ts=1720020901447&ref_url=https%253A%252F%252Fwww.google.com%252F
https://www.ti.com/lit/ab/sboa038a…
Hello Sujatha,
The recommendations from HSAMPs would be to consider one of the following three devices:
- TLV365 (low cost version of OPA365, no laser trim and volume advantage on 300mm wafer)
- OPA863/A (A-version has improved DC precision)
- OPA607…
Hi Ammar,
Since the operating temperature range of -65C to 140C very wide, it is difficult to select a part with radiation harden + high operating range in combined specification.
I think that you may have to go with discrete design approach for the 4-20mA…
I looked through the datasheet once again and found PSRR graphs. Do I understand it correctly, that PSRR in our case is a propagation coefficient (frequency dependent) of the noise on the power input to the signal output? And given that it is looks even…