| Both sides previous revision Previous revision Next revision | Previous revision |
| lab_electrical_engineering:duty_cycle_adjustment [2026/06/17 14:19] – mexleadmin | lab_electrical_engineering:duty_cycle_adjustment [2026/06/17 14:22] (current) – mexleadmin |
|---|
| \\ **C1 = 10 nF, maximum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ | \\ **C1 = 10 nF, maximum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ |
| ~~CLEARFIX~~ | ~~CLEARFIX~~ |
| \\ \\ \\ \\ \\ \\ | \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ |
| \\ **C1 = 10 nF, middle position**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ | \\ **C1 = 10 nF, middle position**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ |
| ~~CLEARFIX~~ | ~~CLEARFIX~~ |
| \\ **C1 = 1 nF, minimum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ | \\ **C1 = 1 nF, minimum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ |
| ~~CLEARFIX~~ | ~~CLEARFIX~~ |
| \\ \\ \\ \\ \\ \\ | \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ |
| \\ **C1 = 1 nF, maximum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ | \\ **C1 = 1 nF, maximum duty cycle**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ |
| ~~CLEARFIX~~ | ~~CLEARFIX~~ |
| \\ **C1 = 1 nF, middle position**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ ~~CLEARFIX~~ \\ | \\ **C1 = 1 nF, middle position**\\ \\ <wrap left>{{drawio>oscilloscope_screen.svg}}</wrap>\\ \\ \\ Channel 1: $\frac {Volt}{Div}=$\\ \\ Channel 2: $\frac {Volt}{Div}=$\\ \\ \\ Time basis: $\frac {T}{Div}=$ |
| | ~~CLEARFIX~~ |
| | \\ \\ \\ \\ \\ \\ \\ |
| - Explain how this circuit works in a few sentences. \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ | - Explain how this circuit works in a few sentences. \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ |
| |