Part Number: TLV3501A-Q1 Hi team,
Our customer is looking for low drift of propagation delay comparator.
I think TLV3501A-Q1 looks good for them because the propagation delay is small.
As I see in figures 3 and 4 of the datasheet, the drift of…
Part Number: TLV3501A-Q1 Hello Everyone.
I'm using TLV 3501A-Q1 Comparator. I couldn't identify the Pins of the package by referring the data sheet . Attached image in the following shows, some letters. please help me to identify the pins Thank you…
Part Number: TLV3501A-Q1 Dear support,
on the datasheet of the TLV3501A-Q1 it is shown typical and maximum value of operating Iq 3.2 and 5 mA. However, my customer would need to know the minimum value. Can you please let me know? Thank you & regards…
Other Parts Discussed in Thread: TLV3501A-Q1 Hello,
I am attempting to compute a sensitivity analysis of a circuit using the TLV3501A-Q1 over a large temperature range, but most of the parameters of the IC are given only at 25C. Is there any information…
Other Parts Discussed in Thread: TLV3501 , TLV3501A-Q1 Hello,
I am attempting to compute a sensitivity analysis of a circuit using the TLV3501 over a large temperature range, but most of the parameters of the IC are given only at 25C. Is there any information…
Part Number: LMV772 Other Parts Discussed in Thread: TLV3501A-Q1 Tool/software: Please provide aFMEDA ,DFME and safety document for the below component 1.LMV772QMMX/NOPB
2.TLV3502AQDCNRQ1
It is not possible to design a complete circuit without knowing the electrical characteristics of the clock signal. Anyway, assuming that you do not know the DC voltage of the clipped sine, you have to derive the reference voltage for the comparator from…
Part Number: LMV761 Other Parts Discussed in Thread: TLV3501A-Q1 , TLV3501 Hi Team: The Datasheet of the LMV761 says: ‘Voltage between any two pins not more than Supply Voltage’ and ‘Current at Input Pin ±5 mA’ But it says not like the TLV3501A-Q1: ‘Input…
The TLV3201-Q1's propagation delay can be as long as the high/low period of your clock signal. So it might technically work, but if the low-to-high and high-to-low propagation delays are not identical, you might get quite a large pulse width distortion…
