RDC2-0046, Interval Timer, STM32F030K6T6

A cyclic timer or time delay relay is designed to generate control pulses with a preset duration and pause in the set operating mode.

Specifications

number of operating modes - 16
The number of time ranges is 9
minimum pulse/pause time
(without taking into account the actuation time) - 10 ms
maximum pulse/pause time
(excluding the actuation time) - 166.5 hours
The range of pulse and pause values is from 1 to 999
The supply voltage is 5 V
board dimensions - 50.8 x 50.8 mm

Diagrams of timer operation modes

After the power supply is applied, the output switches to the active state and the pulse time t starts counting. After the pulse time t has elapsed, the output switches to an inactive state.

After the power supply is applied, the output is in an inactive state, and the tp pause time starts. After the pause time tp expires, the output switches to the active state.

After the power supply is applied, the output switches to the active state and the pulse time t starts counting. After the pulse time t has expired, the output switches to an inactive state and the pause time tp begins. The cycle repeats until the power is turned off.

After the power supply is applied, the output is in an inactive state, and the tp pause time starts. After the pause time tp has elapsed, the output switches to the active state and the pulse time tp starts counting. The cycle repeats until the power is turned off.

After power is applied, the output is in an inactive state. After the control contact IN1 is opened, the output switches to the active state and the time of the pulse t and starts counting. Repeated opening of the control contact IN1 does not reset the pulse time t and. After the pulse time t has elapsed, the output switches to an inactive state.

After power is applied, the output is in an inactive state. The output switches to the active state after the control contact IN1 is closed. After the control contact IN1 is opened, the pulse time t and starts counting down. Repeated opening of the control contact IN1 does not reset the pulse time t and. After the pulse time t has elapsed, the output switches to an inactive state.

After power is applied, the output switches to the active state. After the control contact IN1 is closed, the pulse time t and starts counting down. After the pulse time t has expired, the output switches to an inactive state and the pause time tp begins. Re-closing the control contact IN1 does not reset the countdown. After the pause time tp expires, the output switches to the active state.

After power is applied, the output is in an inactive state. After closing the control contact IN1, the pause time tp starts. After the pause time tp has elapsed, the output switches to the active state and the pulse time tp starts counting. Re-closing the control contact IN1 does not reset the countdown. After the pulse time t has elapsed, the output switches to an inactive state.

After power is applied, the output is in an inactive state. After the control contact IN1 is opened, the output switches to the active state and the time of the pulse t and starts counting. After the pulse time t has elapsed, the output switches to an inactive state. Closing the control contact IN1 stops and resets the countdown of the pulse t and the output goes into an inactive state.

After power is applied, the output is in an inactive state. The output switches to the active state after the control contact IN1 is closed. After the control contact IN1 is opened, the pulse time t and starts counting down. Re-closing the control contact IN1 stops and resets the countdown of the pulse t and, while the output is in the active state. After the pulse time t has elapsed, the output switches to an inactive state.

After power is applied, the output is in an inactive state. After the control contact IN1 is closed, the output switches to the active state and the time of the pulse t and starts counting. Re-closing the control contact IN1 starts the countdown of the pulse t and again, while the output is in the active state. The output goes into an inactive state if the time between the closures of the control contact IN1 is longer than the pulse time t and. After the next closing of the control contact IN1, the output switches back to the active state and the countdown of the pulse t begins anew.

After power is applied, the output is in an inactive state. After closing the control contact IN1, the pause time tp starts. Re-closing the control contact IN1 starts the countdown of the pause time tp again. The output switches to the active state if the time between closures of the control contact IN1 is longer than the pause time tp. After the next closing of the control contact IN1, the output switches back to the inactive state and the countdown of the tp pause time begins anew.

After power is applied, the output is in an inactive state and the pause time tp starts counting down. Closing or opening the control contact IN1 starts the pause time tp again. The output switches to the active state if the time between any two adjacent changes of the control contact IN1 is longer than the pause time tp. After the next closing or opening of the control contact IN1, the output switches back to the inactive state and the countdown of the tp pause time begins anew.

After power is applied, the output is in an inactive state and the pause time tp starts counting down. Closing or opening the control contact IN1 starts the pause time tp again. If the time between any two adjacent changes in the control contact IN1 is longer than the pause time tp, the output switches to the active state and remains in it until the power is turned off, without reacting to changes in the control contact IN1.

After power is applied, the output switches to the active state. The pulses on the control contact IN1 are counted up to the value t and. At the end of the count, the output switches to an inactive state. After the control contact IN2 is closed, the output switches to the active state and the pulse counting starts anew.

After power is applied, the output is in an inactive state. The pulses on the control contact IN1 are counted to the value tp. At the end of the count, the output switches to the active state. After the control contact IN2 is closed, the output switches to an inactive state and the pulse counting starts anew.

Scheme

Purpose of connectors and buttons