* AC input 110V - ADC 1.55V
* AC input 131V - ADC 1.86V
* AC input 135V - ADC 1.9V
* AC input 152V - ADC 2.17V
* AC input 156V - ADC 2.21V
* AC input 173V - ADC 2.49V
* AC input 176V - ADC 2.50V
* AC input 200V - ADC 2.90V
* AC input 205V - ADC 2.94V
* AC input 238V - ADC 3.49V
* AC input 242V - ADC 3.51V
* AC input 274V - ADC 4.10V
* AC input 280V - ADC 4.14V
* AC input 300V - ADC 4.50V
*Input 280V = Output 0V. High Cut start. RL2 + RL3 on.
*Input 274V = output 230V, RL2 + RL3 + RL4 on.
*Input 242V = Output 204V. RL2 + RL3 + RL4 on.
*Input 238V = Output 233V. RL2 + RL4 on.
*Input 205V = Output 201V. RL2 + RL4 on.
*Input 200V = Output 235V. RL3 + RL4 on.
*Input 176V = Output 208V. RL3 + RL4 on.
*Input 173V = Output 238V. RL4 on.
*Input 156V = Output 216V. RL4 on.
*Input 152V = Output 239V. RL1 + RL3 + RL4 on.
*Input 135V = Output 212V. RL1 + RL3 + RL4 on.
*Input 131V = Output 241V. RL1 + RL4 on.
*Input 110V = Output 0V. RL1 on. Low cut start.
Can you determine what waveforms go through the relays?
The calculation of ADC sampling supply is not right since on every switching of RL1 & Rl2 this supply will vary considerably.
One is TIP122 is used and it is providing 22 * 1.4142 - 2.0 V to 12V relays. How does the relay survive ?
We use cookies and similar technologies for the following purposes:
Do you accept cookies and these technologies?
We use cookies and similar technologies for the following purposes:
Do you accept cookies and these technologies?