Part Number: TLV7031-Q1 Tool/software: Hi team,
My customer is using TLV7031-Q1 in their system. They have found one failure mode of VCC short to 16V. The actual measurement is ~10V (because there's resistor in between). Could you please share if the…
Part Number: TLV7031-Q1 Tool/software: Hi Ti Team ,
we are using TLV7031QDCKRQ1 as a comparator in push pull mode, we are supply Voltage with resistor divider to Comparator IN- pin but at higher voltages, Lower (-40c)& higher(105c) temperatures observing…
Part Number: TLV7031-Q1 Other Parts Discussed in Thread: TLV7031 ,
Tool/software:
Hi, Support Team
do we have TLV7031-Q1 for Excel tool to sumulation? could share us? Because our client download TLV7031 PSpics Model but cannot open file of tlv7031.opj …
Part Number: TLV7031-Q1 Hi Team,
I'm also having the same issue:
is it allowed if the supply voltage of the TLV7031-Q1 (5V) is turned off and there is still a voltage at the in+ and in- inputs (e.g. 3V) for a long time ?
but the TLV7031-Q1 should not…
Part Number: TLV7031-Q1 Hello, Team,
Could you check whether below circuit is OK?:
*コンパレータ = Comparator
Comparator inputs are: - Lo -> Hi @ 2.64V, Hi->Lo @ 1.65V
*Green = Input, Blue: Output
Please note that green is actually a pulse but represented…
Christina
Thanks for your post. Just to clarify, FMEA reports are usually for -Q1 devices only. Is this for an automotive customer? It is not common for us to share such reports. They aren't seeking a FIT Rate Report like this TLV7031-Q1 Functional…
Part Number: INA240-Q1 Other Parts Discussed in Thread: INA240 , TLV1701 , TLV7011 , TLV7031-Q1 Hi, Support Team
We saw INA240-Q1 is wide voltage range soluotn. function block as below chart:
but our condition is VH min=11.2V and VLmax=0.6V
INA240-Q1…
Hi Martin,
Martin Holguin said: Try to make a latching circuit for transistor Q1,
Ok, I understand. Very interesting this circuit
I agree with Chi and would not take a nano-power comparator in this circuit either. And there's no need for it, since you…
Hi Alex,
Your definition of Vcm = (Vin+ and Vin-)/2 is only true for op amps under feedback, NOT for comparators. Comparators are rarely operated with the inputs close together and they usually have a large several voltage difference between the inputs…