Other Parts Discussed in Post: OPA1692 Previous installments of this blog post series discussed the need to verify SPICE model accuracy and how to measure common-mode rejection ratio (CMRR), offset voltage versus common-mode voltage (Vos vs. Vcm), slew…
Other Parts Discussed in Post: OPA189 Previous installments of this blog post series discussed the need to verify SPICE model accuracy and how to measure common-mode rejection ratio (CMRR), offset voltage versus common-mode voltage (Vos vs. Vcm), slew…
Other Parts Discussed in Post: OPA2187 , INA1650 SPICE simulation is an immensely valuable tool that allows engineers to have high confidence in their analog designs before ever stepping foot in a lab. While many of us live and die by our simulation results…
Other Parts Discussed in Post: OPA196 , OPA1678 Previous installments of this blog post series discussed the need to verify SPICE model accuracy and how to measure common-mode rejection ratio (CMRR) and offset voltage versus common-mode voltage (V OS vs…
Other Parts Discussed in Post: OPA202 Previous installments of this blog post series discussed the need for verifying SPICE model accuracy and showed how to measure common-mode rejection ratio (CMRR), offset voltage versus common-mode voltage (Vos vs.…
Other Parts Discussed in Post: OPA388 , OPA2325 It’s no secret that low-voltage rail-to-rail input operational amplifiers (op amps) are gradually taking the place of traditional high-voltage amplifiers in many precision applications. Rail-to-rail…
If you follow this blog, you most likely have heard of TI Designs – Precision , our library of high-quality reference designs for precision applications. The first thing you’ll see on the TI Designs – Precision homepage is a graphic illustrating…