Y E A R G U DIN Timers TDM10 Multi-function time delay Multi-time range Compact design Universal voltage input 24~300V AC/DC Single module size Specification Dimensions (mm) TDM10 Operating Volatge 24..300V AC/DC Operating Frequency 50 .. 60Hz Adjustable values / 1s / 1 second Time Range 10s / 10 second 100s / 100 second 1m / 1 minute 10m / 10 minute 1h / 1 hour 10h / 10 hour 100h / 100 hour 1d / 1 day 10d / 10 day Multiplyer 0.1 - 0.2 - 0.3 - 0.4 - 0.5 - 0.6 - 0.7 - 0.8 - 0.9 - 1 Output Contact 1 C/O 10A, 250VAC o o Operating Temperature -25 C .. 70 C o o Storage Temperature -40 C .. 85 C Protection Class IP20 Connection Rail mounts Connections Time Settings Time range selector switch selects full scale time range. The t multiplier Power Input Relay selector switch provides fine adjustment of time value, t, within the full scale time range. Selector switch positions are latched upon startup to avoid accidental 24..300V AC/DC changes during operation. Therefore changing selector switch positions have no effect when the device is operational. The below example shows how to set a t value. t multiplier Time range In the above figure: t=10h x 0.5 = 5 hour Note: All the pot values are digitilised. Cannot be set to mid values. TDM10/06/12 www.imopc.com A R A N T E EDIN Timer TDM10 continued Mode functions A On Delay The output relay is initially de-energised after an adjustable time delay, t. B Off delay The output relay is intially energised and de-energised after an adjustable time delay, t. C On-delay with control input The output relay is initally de-energised. A contact closure on K input triggers an adjustable time delay, t, which energises the output relay when expired. The output relay stays energised as long as the K input is active. Delay time, t, is cleared when the contact on K input opens. D Off delay with control input The output relay is initally de-energised and energised when a contact closure on K input is detected. A contact release on K input triggers an adjustable time delay, t, which de-energises the output relay when expired. Reclosure of the contact on K input before the time delay is expired restarts time delay, t, and keeps the output relay energised E Rising edge triggerred Off delay The output relay is initially de-energised. A contact closure on K input both energised the output relay and triggers an adjustable time delay, t, which de-energises the output relay when expired. During the time delay, K input is insensitive to state changes and becomes sensitive when time delay, t, expired. F Falling edge triggerred Off delay The output relay is initially de-energised. A state change of the contact on K input from closed to open both energises the output relay and triggers an adjustable time delay, t, which de-energises the output relay when expired. During the time delay, K input is insensitive to state changes and becomes sensitive when time delay t, expired. G Off flasher The output relay is initially de-energised and energised after an adjustable time delay, t, and stays energised for the period, t, and the de-energised. This loop is repeated until the device is powered off. H On and Off delay with control input The output relay is initially de-energised. A contact closure on K input triggers an adjustable time delay, t, which energises the output relay when expired. Similarly contact release of K input triggers the time delay, t, which de-energises the output relay when expired. Delay time, t, is cleared when the contact state of K input changes. I Adjustable pulse output with control input The output relay is initially de-energised. A state change on K input both energises the output relay and triggers an adjustable time delay, t, which de-energises the output relay when expired. During the time delay, K input is insensitive to state changes and becomes sensitive when time delay, t, expired. K On delay with memory The output relay is initially de-energised. If K input is open, adjustable time delay, t, counts down and output relay energises when t is expired. Any contact closure on K input pauses the count down process, and the process continues when the contact release on K input occurs. A contact release is needed to restart the cycle, after the output relay is energised. TDM10/06/12