Part Number: LM2907-N Tool/software: Hello Team,
Posting on behalf of my customer:
I need to know if the capacitors shown on this drawing are all electrolytic capacitors or other. The cct. diagram that I'm referring to is contained in your IC information…
Part Number: LM2907-N Tool/software: Hi,
I ran a simulation using the model from this discussion :
https://e2e.ti.com/support/amplifiers-group/amplifiers/f/amplifiers-forum/1211618/lm2907-n-frequency-to-voltage-converter-circuit
At 125Hz:
Vout in theory…
Part Number: LM2907-N
Tool/software:
Hello,
I'm a little unclear based on the datasheet if the LM2907 is the right part for my application. I'm working on a safety interlock system for a laser and I have to make sure enough coolant is moving through…
Part Number: LM2907-N Hi,
Could you help to check the sch,
the input is 50% duty cycle 2k square wave, change the frequency to 20K et. output is always 1V.
Part Number: LM2907-N I want to convert frequencies in the range 0-20KHZ to voltage. The frequency range is not visible in the DATASHEET of LM2907-N. Can you tell me how many KHZ can be converted?
Part Number: LM2907-N Hi TI,
I'm introducing LM2907 in a new project that will be tested at Nemko.
Here is the circuit:
When I turn off the power ,on the CP2 pin I measure :
Figure 1 - C1 = CP2 , C2 = Vcc
How come CP2 generates that huge pulse…
Part Number: LM2907-N We are developing frequency to voltage converter circuit for sensing frequency from 65Hz -110 Hz using LM2907-N. Our working voltage is 12VDC.
Could you provide any relevant schematic or calculator for sensing above frequency range…
Part Number: LM2907-N Hi team, I plan to use LM2907 but am looking for a cheaper solution. I'd like to know about development roadmaps that are more cheaper than the LM2907 or solutions that use something other than the lm2907. I want to use VCC=5V. …
Part Number: LM2907-N Hi
I'm using the LM2907 14 pins. In page 4 of AN162 it says: "The voltage appearing at pin 2 will swing between two values which are approximately 1/4 (VCC) - VBE and 3/4 (VCC) - VBE" my first question is how can I figure…
