Part Number: LM741QML Hi, I have been review the Texas Instrument's Application Report SLAA068B "Understanding Basic Analog – Ideal Op Amps". On page four (4) there is a drawing of a basic inverting amplifier. This drawing matches up…
Part Number: LM741QML Datasheet LM741QML (SNOSAN4A rev Mar 2013) Page 4 Electrical Characteristics DC Parameters The default conditions set for this section are Vcc=+/-15V, Vcm = 0V For the parameter "Input Offset Voltage" (Vio) in the "Conditions" column…
Part Number: LM741QML Other Parts Discussed in Thread: LM741 The TI Application Report "Understanding Operational Amplifier Specifications" states in section "5.2 Input Offset Voltage" that "Normal aging in semiconductors causes changes…
Part Number: LM741QML When calculating the drop in Vin based on the opamp's input resistances. Do I calculate a drop based on the "input resistance" and then a drop based on the opamp's "differential input resistance", or do I add together the two resistance…
Part Number: LM741QML Other Parts Discussed in Thread: LM741-MIL Hello team,
Hope you are doing well. When you get a chance can you help with below customer question:
Is LM741J usable for LM741J/883? Are there characteristic differences or other designator…
Hey Art,
No, the LM741J is "military grade" as in it has extended temperature and comes in a ceramic package; however it does not comply with the most "up to date" tests as noted by the MIL-STD-883.
I state here that the only device…
The military version of this product (LM741x/883, product folder LM741QML) is qualified and tested per the Class Q flow of MIL-PRF-38535. Per the qualification, the part must pass high temp operatring life testing for 1000 hours at 125C. We do no have…