![Left) Frank Wilfred Jordan (1882-?)-the researcher who by toying with... | Download Scientific Diagram Left) Frank Wilfred Jordan (1882-?)-the researcher who by toying with... | Download Scientific Diagram](https://www.researchgate.net/publication/299480662/figure/fig5/AS:670039606849551@1536761299388/Left-Frank-Wilfred-Jordan-1882--the-researcher-who-by-toying-with-electronic.png)
Left) Frank Wilfred Jordan (1882-?)-the researcher who by toying with... | Download Scientific Diagram
![Electronic apparatus for biological research. Electronic apparatus and appliances; Biology -- Research. TRIGGERED PULSE GENERATORS time constant will then control the duration, and the integrator time constant the slope {Figure 16.19). Electronic apparatus for biological research. Electronic apparatus and appliances; Biology -- Research. TRIGGERED PULSE GENERATORS time constant will then control the duration, and the integrator time constant the slope {Figure 16.19).](https://c8.alamy.com/comp/RD6T1T/electronic-apparatus-for-biological-research-electronic-apparatus-and-appliances-biology-research-triggered-pulse-generators-time-constant-will-then-control-the-duration-and-the-integrator-time-constant-the-slope-figure-1619-more-often-the-requirement-is-to-vary-the-duration-whilst-maintaining-the-amplitude-this-can-be-done-with-the-above-arrange-ment-operating-the-two-controls-together-but-this-is-inconvenient-and-can-be-avoided-by-the-use-of-one-of-the-special-circuits-which-follow-eccles-jordan-control-this-circuit-figure-1620-appears-to-be-due-to-dickinson-normally-k-RD6T1T.jpg)
Electronic apparatus for biological research. Electronic apparatus and appliances; Biology -- Research. TRIGGERED PULSE GENERATORS time constant will then control the duration, and the integrator time constant the slope {Figure 16.19).
![Electronic apparatus for biological research . HT- HT- Figure 41.8 Eccles- Jordan circuit with the addition of two diodes. Let point A be normally maintained at HT+ potential and let V<^ be Electronic apparatus for biological research . HT- HT- Figure 41.8 Eccles- Jordan circuit with the addition of two diodes. Let point A be normally maintained at HT+ potential and let V<^ be](https://c8.alamy.com/comp/MA7ARG/electronic-apparatus-for-biological-research-ht-ht-figure-418-eccles-jordan-circuit-with-the-addition-of-two-diodes-let-point-a-be-normally-maintained-at-ht-potential-and-let-vlt-be-conducting-and-v-cut-off-then-dlt-will-be-cut-off-and-d-has-both-terminals-at-ht-now-let-a-negative-pulse-carry-to-a-potential-below-ht-but-rather-higher-than-k2-anode-d2-will-remain-cut-off-but-d-will-now-conduct-taking-kj-anode-negative-and-initiating-the-cumulative-effect-by-which-the-circuit-triggers-into-the-opposite-conditionk-cut-off-fo-conducting-because-the-circuit-is-symme-MA7ARG.jpg)
Electronic apparatus for biological research . HT- HT- Figure 41.8 Eccles- Jordan circuit with the addition of two diodes. Let point A be normally maintained at HT+ potential and let V<^ be
![Electronic apparatus for biological research . Fourth Eccles-Jordan circuit Figure 41.11 article should be consulted). Scale of ten counters can be connected in chains to form scales of 100, or 1,000 Electronic apparatus for biological research . Fourth Eccles-Jordan circuit Figure 41.11 article should be consulted). Scale of ten counters can be connected in chains to form scales of 100, or 1,000](https://l450v.alamy.com/450v/rd60mf/electronic-apparatus-for-biological-research-electronic-apparatus-and-appliances-biology-research-counters-this-seemingly-complicated-behaviour-can-be-achieved-quite-simply-vith-the-help-of-an-extra-pair-of-diodes-in-a-circuit-due-to-rotblat-sayle-and-thomas-the-relevant-fragment-of-circuitry-is-shown-in-figure-4111-when-the-fourth-circuit-is-off-the-right-hand-triode-is-conducting-dg-is-cut-off-and-pulses-are-transferred-from-the-fourth-to-the-second-eccles-jordan-circuit-via-d-when-the-fourth-circuit-is-on-the-right-hand-anode-rises-to-ht-rendering-d-conductive-a-rd60mf.jpg)