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Part Number: AM26LV31 Other Parts Discussed in Thread: SN65LBC172A , SN75LBC172 , SN65LBC174 , AM26LS31 , SN75172 , SN75ALS192 , MC3487 , SN75LBC172A hello team,
Do we have any Quadruple Differential Line Driver with internal pull up(down) Resistor in input side…
Other Parts Discussed in Thread: SN75LBC172 , SN75LBC173 Hi,
SN75LBC172 and SN75LBC173 of - please tell me the junction thermal resistance between the case.
ψjt = ? Θjc = ?
Best regards
All '172 and '26x31 devices are pin compatible. You could use the SN75LBC172(A) (lower power) or AM26LS31/AM26C31 (cheaper, smaller voltage range).
As far as I can see, -A devices have a higher signaling rate.
Devices like the AM26C31 or SN75LBC172 are compatible. What is the problem with the AM26LS31?
I cannot give more information about those devices; I do not know more than is written in the datasheet.
Is there higher recommended output current than +/-20mA you can suggest? There are two packages 16pin D and PW used of the AM26C31 in customer side. It looks DS26LV31T and SN75LBC172 can support up to +/-60mA, but package cannot meet customer request. Pls…
Other Parts Discussed in Thread: SN75LBC172 Dear Technical Support Team
I have a question about SN75LBC172.
Following is a waveform on Osillospcope.
Y and Z drive high(between cursole X1 an cursole X2) at the same time after an enable(Gn) is high(Enable…
Louis,
the 2ns difference you quote are actually impressive for this part. Its data sheet does not specify the actual difference between the two outputs but the total differential output delay is somewhere above 20ns.
There is an improved and also more…
