From 5abff47c820a33f4f4619ecb22f3efc9e77f84d2 Mon Sep 17 00:00:00 2001 From: Martin Kennedy Date: Mon, 5 May 2025 03:30:57 -0400 Subject: [PATCH] reword --- Final.tex | 11 +++++++---- 1 file changed, 7 insertions(+), 4 deletions(-) diff --git a/Final.tex b/Final.tex index 56e84b5..23251d4 100644 --- a/Final.tex +++ b/Final.tex @@ -152,10 +152,13 @@ conditions under which the op-amp amplifies higher and lower frequencies than would be specified under generic ``open-loop gain'': for example, the LM741 datasheet documents the \textit{Open-Loop Large-Signal Differential Voltage Amplification} as a function of -frequency, as seen in Figure \ref{img:lm741_oclsg}. This differs from -``open-loop gain'' in that the operating output is known to be a -meaningful fraction of the supply voltage; here, it is -$V_o = \SI{10}{V}$ for $V_{CC} = \pm \SI{15}{V}$. +frequency, as seen in Figure \ref{img:lm741_oclsg}. Despite being +closely related to ``open-loop gain'', it is distinct in that it is +measured with an output load (in this case, $R_L = \SI{2}{\kohm}$), +and under conditions such that the load is significant, i.e. that the +operating output is known to be a meaningful fraction of the supply +voltage \cite{b1}. Here, it is $V_o = \SI{10}{V}$ for +$V_{CC} = \pm \SI{15}{V}$. \begin{figure}[h] \caption{The large-signal open-loop gain of the LM741}