Number | Function | Scheme | Description | |
---|---|---|---|---|
Simple Timing Functions | F00 | Switch on delay | Delay timing (t) to the relay connection. | |
F01 | Switch off delay | Delay timing (t) to the relay disconnection. | ||
Timing functions based on the B Signal input | F02 | Switch on delay by B signal | Delay timing (t) to the relay connection at the reception of a rising B signal edge. | |
F03 | rising edge (Timing begins) | Delay timing (t) to the relay disconnection at the reception of a B Signal rising edge. | ||
F04 | Switch off delay by an B signal falling edge, an B signal rising edge the relay switch on. | rising edge (closes the relay) / falling edge (timing switches on ) | ||
F05 | Switch off delay by B signal rising edge. | Switch on relay with a B Signal rising edge and begins a delay timing (t) to switch off the relay. | ||
F06 | Switch off delay by B signal falling edge. | Switch on relay with a B Signal falling edge and begins a delay timing (t) to switch off the relay. | ||
F07 | Switch off delay by B signal rising and falling edge. | Switch on relay with a B Signal rising or falling edge and begins a delay timing (t) to switch off relay. A new B signal edge reset timing. | ||
F08 | Switch on delay stopping by rising B signal edge. | Delay timing (t) to the switch on relay interruptible by a B signal rising edge, stopping the timing process while a B signal falling edge resumes again the timing. | ||
F09 | Switch on delay stopping by falling B signal edge. | Delay timing (t) to the switch on relay interruptible by a B is falling edge, stopping the timing process while a B signal rising edge resumes again the timing. | ||
Symmetric and asymmetric cycle timing functions | F10 | Pulse delay | To time t1 and t2, defining t1 as the time of the switch off relay and t2 as the time the switch on relay, timing after feeding the module. | |
F11 | Pulse delay with B signal | To time t1 and t2, defining t1 as the time of the switch off relay and t2 as the time the switch on relay, timing after receiving an B signal rising edge. |
||
F12 | Symmetric timing cycle (Start close) | After the module feeding, the system begins to time a symmetric cycle, keeping the switch on relay for a period t, the next period t is switched off. The process begins with the relay switched on. |
||
F13 | Symmetric timing cycle (Start open) | After the module feeding, the system begins to time a symmetric cycle, keeping the switch off relay for a period t, the next period t switches on. The process begins with the relay switched off. |
||
F14 | Asymmetric timing cycle (start close) | After the module feeding, the system begins to time an asymmetric cycle, keeping the switch on relay for a period t1 and the next period t2 switched off. The process begins with the relay switches on. | ||
F15 | Asymmetric timing cycle (start open) | After the module feeding, the system begins to time an asymmetric cycle, keeping the switch on relay for a period t1 and the next period t2 switch off. The process begins with the relay switches off. |
||
Simple counter functions | F16 | Switch on counter | Each B signal rising edge decreases a present value (n), when this counter reaches zero, the relay is switched on. | |
F17 | Switch off counter | Each B signal rising edge decreases a present value (n), when this counter reaches zero, the relays is switch off. | ||
Symmetric and asymmetric cycle counter functions | F18 | Symmetric counter (start close) | Each B signal rising edge decreases a present value (n), when this counter reaches zero, the relay state is changed, the relay keeps switched on for (n) B signal cycles and (n) cycles switch off (symmetric cycle). The process begins with the relay switched on. | |
F19 | Symmetric counter (start open) | Each B signal rising edge decreases a present value (n), when this counter reaches zero, the relay state is changed, the relay keeps switched off for (n) B signal cycles and (n) cycles switched on (symmetric cycle). The process begins with the relay switched off. | ||
F20 | Asymmetric counter (start close) | Each B signal rising edge decreases a preset values (n1 & n2), when this counter reaches zero, the relay state is changed, the relay keeps switch on for (n1) B signal cycles and (n2) cycles switch off (asymmetric cycle). The process begins with the relay switched on. |