![1n60 Germanium Diodes with Low Forward Voltage Under 0.3V, 25 pcs: Amazon.com: Industrial & Scientific 1n60 Germanium Diodes with Low Forward Voltage Under 0.3V, 25 pcs: Amazon.com: Industrial & Scientific](https://m.media-amazon.com/images/I/61zX3aNfbAL._AC_UF1000,1000_QL80_.jpg)
1n60 Germanium Diodes with Low Forward Voltage Under 0.3V, 25 pcs: Amazon.com: Industrial & Scientific
![voltage - The classic 1N34A Ge Diode has a Vf of 1V... how could a diode with such a high Vf work in crystal sets they were packaged in? - Electrical Engineering voltage - The classic 1N34A Ge Diode has a Vf of 1V... how could a diode with such a high Vf work in crystal sets they were packaged in? - Electrical Engineering](https://i.stack.imgur.com/GTIqV.jpg)
voltage - The classic 1N34A Ge Diode has a Vf of 1V... how could a diode with such a high Vf work in crystal sets they were packaged in? - Electrical Engineering
![In an ON state the individual Silicon and Germanium diodes allow a voltage drop of 07Vand 03V respectively across them In the circuit shown the Si and the Ge diode are connected In an ON state the individual Silicon and Germanium diodes allow a voltage drop of 07Vand 03V respectively across them In the circuit shown the Si and the Ge diode are connected](https://sss.embibe.com/cdn-cgi/image/q=75,w=187.5,f=auto,fit=scale-down/https://sss.embibe.com/content-grail/production/04a4b444-93be-4be8-b0f2-d6fc2aab61f1.png)
In an ON state the individual Silicon and Germanium diodes allow a voltage drop of 07Vand 03V respectively across them In the circuit shown the Si and the Ge diode are connected
How does the voltage drop across a diode change with current? I thought it was a set value due to the P-N junction opposing charge. - Quora
![SOLVED: Determine the voltage drop across the germanium diode using the piecewise linear model. Data: Vg = 1.9 V, R1 = 85 Ω, Diode VK = 0.2 V, rD = 15 Ω SOLVED: Determine the voltage drop across the germanium diode using the piecewise linear model. Data: Vg = 1.9 V, R1 = 85 Ω, Diode VK = 0.2 V, rD = 15 Ω](https://cdn.numerade.com/ask_images/bfd87bb4d46b49f58b78353c8bf4d51f.jpg)