TL0xx Comparison Table
Temperature coefficient | Offset voltage | Offset current | Bias current | Supply current | Slew rate | Bandwidth | Noise voltage | Noise current | |
µV/°C | mV | pA | pA | mA | V/µs | MHz | nV/rtHz | pA/rtHz | |
TL03x | 10 | 0,53 | 1 | 2 | 0,2 | 3 | 1,1 | 42 | 0,003 |
TL05x | 8 | 0,51 | 5 | 30 | 2,4 | 20 | 3 | 20 | 0,01 |
TL06x | 10 | 3 | 5 | 30 | 0,2 | 3,5 | 1 | 30 | |
TL07x | 18 | 3 | 5 | 65 | 1,4 | 20 | 3 | 18 | 0,01 |
TL08x | 18 | 3 | 5 | 30 | 1,4 | 13 | 3 | 18 | 0,01 |
TL0xxH | 2 | 1 | 0,5 | 1 | 1 | 20 | 5,3 | 37 | 0,08 |
Here is a small comparison table for the jellybean JFET input op amps. I dug through the TI datasheets and picked some of the most common parameters where the different models differ. There are probably some more differences that I left out and thus I do not claim that this table is complete (or correct).
Click here for a more thorough table.
Quick Selection Charts
The most important specs at a glance, rated in 5 steps from best to worst (outside = best, inside = worst).
Some conclusions to draw:
- If you need an op amp for audio applications, use 7x, 8x or 5x. Avoid the 7xH and 8xH though, as they are pretty noisy.
- For lowest offset voltage and drift, 5x is best. This seems to be the part with the best performance of the bunch.
- If you need the lowest possible current draw, go with the 3x, 6x, or 7xH/8xH.
- The 6x is the worst of the bunch, and probably a 8x trimmed for lowest current draw.
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TL031 TL032 TL034 TL051 TL052 TL054 TL061 TL062 TL064 TL071 TL072 TL074 TL081 TL082 TL084 TL071H TL072H TL074H TL081H TL082H TL084H TL092 TL022
And for those of you that prefer TLO over TL0:
TLO31 TLO32 TLO34 TLO51 TLO52 TLO54 TLO61 TLO62 TLO64 TLO71 TLO72 TLO74 TLO81 TLO82 TLO84 TLO71H TLO72H TLO74H TLO81H TLO82H TLO84H TLO92 TLO22