Part Number: LF353-N Other Parts Discussed in Thread: LF353 hi,
what is the recommended operation Vcc range? From Figure.5 in datasheet, does it mean that the VCC range +-5Vmin----+-18Vmax?
Part Number: LF353-N Hi Ron
I am sorry I am late a little bit (Nearly 4 months)
Although my education is about electronics I am not proffesional at electronics. I am working as a DPO (Data protection officer)
Actually this my hobby. If I learn some…
Cabir,
I'll use your Ps numbers. Receive time is 0.0005m / (2000 m * 10revs/sec) = 25ns which is 40MHz. LF353-N seems to be too slow to respond. If the actual signal from the optic transducer is longer than that, then I suspect the sensor is too slow…
Part Number: LF353-N Other Parts Discussed in Thread: LF347-N , LF347 , LF353 Can you tell me the value of the input capacitance for the LF353-N?
Thanks for your help with this!
Richard Elmquist
Part Number: LF353-N Hi Team,
my customer plan use LF353-N with single power supply Vcc : +24 and Vee : GND.
Can LF353-N support single power supply more than +18V? and what is output current source and sink at that condition?
Thanks & Regards …
The LF353-N (i.e., LF353M/NOPB) is the same device as the old LF353 from National Semiconductor. In theory, it should have the same properties, including the offset voltage distribution. In practice, only the min/max datasheet limits are guaranteed, and…
Hello Mikyung,
It is similar, but input capacitance for the TL082/TL084 is a little higher than the LF347-N or LF353-N (the -N matters here)
Cp = 5.5pF (non inverting pin to ground)
Cn = 7pF (inverting pin to ground)
Cd = 4pF (inverting to non…
Hi Richard,
this does no harm. But keep in mind, that the input voltages should never exceed the negative rail. In the datasheet of LF353-N you will find the following phrase:
"However, neither of the input voltages should be allowed to exceed the…
Part Number: OPA2197 Other Parts Discussed in Thread: OPA197 , LF353 I'm using the OPA2197 dual opamp in an inverting opamp summing junction with 3 input signals. The device is powered from +/-12Vdc. Each input signal consists of an 25Khz to 60Khz 2Vpp…
