![Electronic apparatus for biological research . From T.B. generator HT- EHT- Figure 32.41 the upper possible CR product to a time constant insufficient to pass the brightening-up waves accompanying slow sweeps. Electronic apparatus for biological research . From T.B. generator HT- EHT- Figure 32.41 the upper possible CR product to a time constant insufficient to pass the brightening-up waves accompanying slow sweeps.](https://l450v.alamy.com/450v/ma7b30/electronic-apparatus-for-biological-research-from-tb-generator-ht-eht-figure-3241-the-upper-possible-cr-product-to-a-time-constant-insufficient-to-pass-the-brightening-up-waves-accompanying-slow-sweeps-it-is-difficult-to-brighten-up-a-trace-of-duration-greater-than-about-100-msec-by-this-method-2-the-ripple-on-the-eht-supply-is-now-applied-to-the-cathode-of-the-crt-but-not-to-the-grid-if-the-eht-is-generated-by-rectification-from-468-ma7b30.jpg)
Electronic apparatus for biological research . From T.B. generator HT- EHT- Figure 32.41 the upper possible CR product to a time constant insufficient to pass the brightening-up waves accompanying slow sweeps.
![Nanosecond Pulser | 30 – 5000 W | Adjustable 5 – 25 kV, 20 – 250 ns, 1 – 100 kHz – Sky Blue Microsystems GmbH Nanosecond Pulser | 30 – 5000 W | Adjustable 5 – 25 kV, 20 – 250 ns, 1 – 100 kHz – Sky Blue Microsystems GmbH](https://www.skyblue.de/uploads/images/Produktfotos/eht_nanosecond_pulsers.jpg)
Nanosecond Pulser | 30 – 5000 W | Adjustable 5 – 25 kV, 20 – 250 ns, 1 – 100 kHz – Sky Blue Microsystems GmbH
![EHT Pulse Generators: High Voltage, Switch Module, Arc Modulation, Bipolar, and Unipolar Arbitrary 10 kV – Sky Blue Microsystems GmbH EHT Pulse Generators: High Voltage, Switch Module, Arc Modulation, Bipolar, and Unipolar Arbitrary 10 kV – Sky Blue Microsystems GmbH](https://www.skyblue.de/uploads/images/Produktfotos/eht_arbitrary_pulse_generators.jpg)
EHT Pulse Generators: High Voltage, Switch Module, Arc Modulation, Bipolar, and Unipolar Arbitrary 10 kV – Sky Blue Microsystems GmbH
![Electronic apparatus for biological research . Cathode Hj. Brightness Figure 32.18 EHT- For general electrobiological work, direct coupling to the deflector plates is more satisfactory, and in this case the deflection Electronic apparatus for biological research . Cathode Hj. Brightness Figure 32.18 EHT- For general electrobiological work, direct coupling to the deflector plates is more satisfactory, and in this case the deflection](https://c8.alamy.com/comp/MA7B3Y/electronic-apparatus-for-biological-research-cathode-hj-brightness-figure-3218-eht-for-general-electrobiological-work-direct-coupling-to-the-deflector-plates-is-more-satisfactory-and-in-this-case-the-deflection-amplifiers-and-the-tube-supply-network-have-to-be-designed-together-figure-3218-shows-a-possible-scheme-in-which-a-long-tailed-pair-forms-the-output-stage-of-the-y-deflection-amplifier-the-output-of-the-time-base-generator-may-be-fed-to-the-x-plates-ht-and-eht-from-earlierl-stages-in-time-base-generator-MA7B3Y.jpg)
Electronic apparatus for biological research . Cathode Hj. Brightness Figure 32.18 EHT- For general electrobiological work, direct coupling to the deflector plates is more satisfactory, and in this case the deflection
![Generation of Engineered Heart Tissue (EHT). (A) PTFE spacer. (B) PDMS... | Download Scientific Diagram Generation of Engineered Heart Tissue (EHT). (A) PTFE spacer. (B) PDMS... | Download Scientific Diagram](https://www.researchgate.net/profile/Umber-Saleem/publication/321335274/figure/fig2/AS:880232928133122@1586875292816/Generation-of-Engineered-Heart-Tissue-EHT-A-PTFE-spacer-B-PDMS-rack-A-B-Scale.jpg)