CIM33R/UC24-240V

Q: How can I convert an existing industrial relay into a time relay?

There are two ways to retrofit an existing industrial relay with timing functions. Time cubes are ideal when a socket and relay are already installed and only a single timing function needs to be added. The time cube is simply plugged between the socket and the relay and adjusted via DIP switch or potentiometer. It is available for industrial relay series C2 and C3, as well as for the Long Life series C2x and C3x.Alternatively, time modules can be used. These modules are inserted into the socket’s module compartment and, compared to time cubes, offer more timing functions and longer setting ranges. They are available for sockets S3-M0, S3-M0R, S3-M1, S3-M1R, S5-M, and S5-MR and are compatible with industrial relays C3 and C5, as well as Long Life relays C3x. Both solutions allow time relays to be configured with up to three changeover contacts – more than is usually possible with standard time relays.

Q: How do I set a time relay?

The process is the same for almost all time relays. First, select a function using the potentiometer. Each letter (A, E, W, K, etc.) stands for a specific function, which is described on the side of the relay or on the package insert.Next, select the time range, whereby the selected range always corresponds to the maximum value. The last potentiometer is then used to fine-tune the time setting. For example, if you want to set a 30-second switch-off delay, it would look like this:Function: ATime range: 60 secondsFine adjustment: On a scale of 0-6, the potentiometer is then set to 3 (6 = 60 seconds, 3 = 30 seconds, 1 = 10 seconds).

Q: Time functions | Delay functions E, A, F

E – On delay The function provides a delayed switching ON of the output. When S switches ON, the time t starts. After t expires, the output R switches ON. If S switches OFF before t ends, R stays OFF. A – Off delay The function provides a delayed switching OFF of the output. When S switches ON, the output R switches ON immediately. When S switches OFF, the time t starts. After t expires, the output R switches OFF. F – On and off delay The function provides a delayed switching ON and a delayed switching OFF of the output. When S switches ON, the on delay t₁ starts. After t₁ expires, the output R switches ON. When S switches OFF, the off delay t₂ starts. After t₂ expires, the output R switches OFF.

Q: Time functions | Shot timing modes W, N, Q

W – One shot leading edge The function provides a fixed output pulse on the leading edge of the trigger. When S switches ON, the output R switches ON for time t. After t expires, R switches OFF, independent of S. When S switches OFF, R switches OFF. N – One shot trailing edge The function provides a fixed output pulse on the trailing edge of the trigger. When S switches ON, R does not change. When S switches OFF, the output R switches ON for t. After t expires, R switches OFF. Q – One shot leading and trailing edge The function provides fixed output pulses on both the leading and trailing edges of the trigger. When S switches ON, the output R switches ON for t1. After t1 expires, R switches OFF. When S switches OFF, the output R switches ON again for t2. After t2 expires, R switches OFF.

Q: Time functions | Pulse shaping K, L, M

K – Pulse shaping The function provides a fixed output pulse independent of the input duration. When S switches ON (pulse or continuous), the output R switches ON for t. During t, S has no influence on R. After t expires, R switches OFF. L – Pulse shaping, retrigger The function provides a fixed output pulse that restarts when retriggered. When S switches ON, the output R switches ON for t. If S triggers again during t, the time t restarts from zero. After the final t expires, R switches OFF. M – Puls shaping The function provides a fixed output pulse after S switches OFF. When S switches ON, R remains OFF. When S switches OFF, the output R switches ON for t. After t expires, R switches OFF.

Q: Time functions | Indicator functions B, B1, B2

B – Indicator, pulse start The function provides periodic ON and OFF switching starting with an ON pulse. When S switches ON, the output R switches ON for time t, then switches OFF for time t. R switches ON and OFF periodically until S switches OFF. R switches OFF with S. B1 – Indicator, pulse start, trailing pulse The function provides periodic ON and OFF switching starting with an ON pulse and ending with a trailing pulse. the output R switches ON for time t, then switches OFF for time t. R switches ON and OFF periodically until S switches OFF. When S switches OFF, the output R switches ON once more for t, then R switches OFF. B2 – Indicator, interval start The function provides periodic ON and OFF switching starting with an OFF interval. When S switches ON, the output R remains OFF for t, then R switches ON for time t. R switches ON and OFF periodically until S switches OFF. R switches OFF with S.

Q: Time functions | Delayed pulse G, H

G – On delay single shot The function provides an output pulse after a delay. When S switches ON, the delay t₁ starts. After t₁ expires, the output R switches ON for t₂. After t₂ expires, R switches OFF. During t₂, S has no influence on R. H – On delay single shot When S switches ON, the delay t₁ starts. After t₁ expires, the output R switches ON for t₂. After t₂ expires, R switches OFF. When S switches OFF, R switches OFF

Q: Time functions | Repeat cycle timer I, P

I – Repeat cycle timer, pulse start The function provides periodic ON and OFF switching starting with an ON pulse. When S switches ON, the output R switches ON for t₁. After t₁ expires, R switches OFF for t₂. Afterwards R switches ON and OFF periodically according to t₁ and t₂. When S switches OFF, R switches OFF. P – Repeat cycle timer, interval start The function provides periodic ON and OFF switching starting with an OFF interval. When S switches ON, the delay t₁ starts, and R remains OFF for t₁. After t₁ expires, the output R switches ON for t₂. Afterwards R switches ON and OFF periodically according to t₁ and t₂. When S switches OFF, R switches OFF.

Q: Time functions | Special functions Y, S, LS

Y - Star–delta timer The function provides automatic switching from star operation to delta operation. When S switches ON, the time t starts, and the star output R switches ON. After t expires, the star output switches OFF and the delta output switches ON. When S switches OFF, both outputs switch OFF. S - Step-on / Step-off switch The function provides stepwise switching with each activation of the trigger. Each time S switches, the output R changes state for time t. The trigger has no time-dependent influence. LS - Step-switching (staircase lighting timer) The function provides timed activation with optional stop and reset control. When S is triggered, the time t starts, and the output R switches ON. When S is triggered again, the time t stops and R switches OFF. WhenS is triggered again, the time t resets and starts again immediately. When t expires, the output R switches OFF.

Q: Time functions | Pulse sequence monitoring U, V

U – Pulse sequence monitoring The function provides monitoring of pulse separation and triggers an alarm if pulses are too close together. If the separation becomes smaller than the set time tP, an alarm output is activated after an additional delay tV. The monitoring starts with S1 or S2. If the pulse separation of P is smaller than tP, an alarm output is activated after the alarm delay tV. If the pulse separation is larger than tP, no alarm is triggered. The start‑up behaviour depends on the selected input S1 (Monitoring begins immediately with the first pulse. There is no suppression of alarm monitoring during start‑up.) or S2 (Monitoring begins after the short‑out time tA to prevent false alarms during system start-up) V – Pulse sequence monitoring The function provides monitoring of pulse separation and triggers an alarm if pulses are too far apart. The monitoring starts with S1 or S2. If the pulse separation of P is larger than tP, an alarm output is activated after the alarm delay tV. If the pulse separation is smaller than tP, no alarm is triggered. The start‑up behaviour depends on the selected input S1 (without start‑up short‑out tA) or S2 (with start‑up short‑out tA).

- 1 pole
- Solid state
- Mosfet
- Max 5 A @ 24 V DC
- For installation in electrical distributor
- Time functions: F, Q, G, H, I, P

The multifunctional time relays of the CIM series are compact time relays with 9 time functions and 7 time ranges from 50 ms to 60 h for precise time and sequence control. Typical areas of application are step relays, staircase lighting controls and general multifunctional time relays in control and automation systems.
The wide supply voltage range from 24 to 240 V allows the devices to be used in various AC and DC applications. The CIM1 and CIM14 variants are equipped with electromechanical contacts, with the CIM14 being specially designed for applications with high inrush currents.
The CIM12 and CIM13 variants have solid-state outputs for AC and DC applications.
All models are available in industrial and railway versions, making them suitable for classic industrial applications as well as for use in rail vehicles and railway infrastructure.

Current type	AC / DC (50 Hz)
Nominal voltage	24 V-240 V

Current consumption on input control B1 AC / DC	< 22 mA / < 22 mA
Current consumption on supply A1-A2 AC / DC	< 23 mA / < 23 mA
Frequency range	0; 16 ... 63 Hz
Nominal voltage	24 … 240 V AC / DC
Operating voltage range	16.8 … 250 V AC / DC
Power consumption AC / DC	1.2 VA / 430 mW
Threshold voltage on input control B1 AC / DC	13 V / 15 V

Conductor cross section control / main circuit	2.5 mm², 2 x 1.5 mm²
Housing material	PA
Ingress Protection	IP 20
Nominal screw torque control / main circuit	0.5 Nm
Operation temperature	-40 ... 70 °C
Storage temperature (no ice)	-40 ... 85 °C
Weight	70 g

Overvoltage category	III
Pollution degree	2
Rated test voltage control / main circuit	2.5 kV rms / 1 min

Electrical endurance at rated load DC-1 (cycles)	∞
Inrush current	40 A, 10 us
Mechanical endurance (cycles)	∞
Minimum load	1 mA, 1 V
Number of outputs	1 NO
Output type	MOSFET
Rated current	5 A
Rated voltage	24 V DC
Typ. leakage current	10 µA

Approvals	UKCA,CE,EAC,Railway
Railway	EN 50155,EN 45545-2
Standards	IEC/EN 61812-1

Timing range	50 ms … 60 h
Timing scale	0.6 s / 6 s / 60 s / 6 min / 60 min / 6 h / 60 h

3D-models "CIM33R/UC24-240V"

CIM33R/UC24-240V / STEP file

Documents "CIM33R/UC24-240V"

Product brochure
Time functions

Current type	AC / DC (50 Hz)
Nominal voltage	24 V-240 V

Current consumption on input control B1 AC / DC	< 22 mA / < 22 mA
Current consumption on supply A1-A2 AC / DC	< 23 mA / < 23 mA
Frequency range	0; 16 ... 63 Hz
Nominal voltage	24 … 240 V AC / DC
Operating voltage range	16.8 … 250 V AC / DC
Power consumption AC / DC	1.2 VA / 430 mW
Threshold voltage on input control B1 AC / DC	13 V / 15 V

Conductor cross section control / main circuit	2.5 mm², 2 x 1.5 mm²
Housing material	PA
Ingress Protection	IP 20
Nominal screw torque control / main circuit	0.5 Nm
Operation temperature	-40 ... 70 °C
Storage temperature (no ice)	-40 ... 85 °C
Weight	70 g

Overvoltage category	III
Pollution degree	2
Rated test voltage control / main circuit	2.5 kV rms / 1 min

Electrical endurance at rated load DC-1 (cycles)	∞
Inrush current	40 A, 10 us
Mechanical endurance (cycles)	∞
Minimum load	1 mA, 1 V
Number of outputs	1 NO
Output type	MOSFET
Rated current	5 A
Rated voltage	24 V DC
Typ. leakage current	10 µA

Approvals	UKCA,CE,EAC,Railway
Railway	EN 50155,EN 45545-2
Standards	IEC/EN 61812-1

Timing range	50 ms … 60 h
Timing scale	0.6 s / 6 s / 60 s / 6 min / 60 min / 6 h / 60 h

Approvals

Data sheet

3D-models "CIM33R/UC24-240V"

CIM33R/UC24-240V / STEP file

Documents "CIM33R/UC24-240V"

Product brochure
Time functions

Time Relay

How can I convert an existing industrial relay into a time relay?

There are two ways to retrofit an existing industrial relay with timing functions.
Time cubes are ideal when a socket and relay are already installed and only a single timing function needs to be added. The time cube is simply plugged between the socket and the relay and adjusted via DIP switch or potentiometer. It is available for industrial relay series C2 and C3, as well as for the Long Life series C2x and C3x.

Alternatively, time modules can be used. These modules are inserted into the socket’s module compartment and, compared to time cubes, offer more timing functions and longer setting ranges. They are available for sockets S3-M0, S3-M0R, S3-M1, S3-M1R, S5-M, and S5-MR and are compatible with industrial relays C3 and C5, as well as Long Life relays C3x.

Both solutions allow time relays to be configured with up to three changeover contacts – more than is usually possible with standard time relays.

How do I set a time relay?

The process is the same for almost all time relays. First, select a function using the potentiometer. Each letter (A, E, W, K, etc.) stands for a specific function, which is described on the side of the relay or on the package insert.

Next, select the time range, whereby the selected range always corresponds to the maximum value. The last potentiometer is then used to fine-tune the time setting. For example, if you want to set a 30-second switch-off delay, it would look like this:

Function: A

Time range: 60 seconds

Fine adjustment: On a scale of 0-6, the potentiometer is then set to 3 (6 = 60 seconds, 3 = 30 seconds, 1 = 10 seconds).

Time functions | Delay functions E, A, F

E – On delay

The function provides a delayed switching ON of the output.
When S switches ON, the time t starts.
After t expires, the output R switches ON.
If S switches OFF before t ends, R stays OFF.

A – Off delay

The function provides a delayed switching OFF of the output.
When S switches ON, the output R switches ON immediately.
When S switches OFF, the time t starts.
After t expires, the output R switches OFF.

F – On and off delay

The function provides a delayed switching ON and a delayed switching OFF of the output.
When S switches ON, the on delay t₁ starts.
After t₁ expires, the output R switches ON.
When S switches OFF, the off delay t₂ starts.
After t₂ expires, the output R switches OFF.

Time functions | Shot timing modes W, N, Q

W – One shot leading edge

The function provides a fixed output pulse on the leading edge of the trigger.
When S switches ON, the output R switches ON for time t.
After t expires, R switches OFF, independent of S.
When S switches OFF, R switches OFF.

N – One shot trailing edge

The function provides a fixed output pulse on the trailing edge of the trigger.
When S switches ON, R does not change.
When S switches OFF, the output R switches ON for t.
After t expires, R switches OFF.

Q – One shot leading and trailing edge

The function provides fixed output pulses on both the leading and trailing edges of the trigger.
When S switches ON, the output R switches ON for t1.
After t1 expires, R switches OFF.
When S switches OFF, the output R switches ON again for t2.
After t2 expires, R switches OFF.

Time functions | Pulse shaping K, L, M

K – Pulse shaping

The function provides a fixed output pulse independent of the input duration.
When S switches ON (pulse or continuous), the output R switches ON for t.
During t, S has no influence on R.
After t expires, R switches OFF.

L – Pulse shaping, retrigger

The function provides a fixed output pulse that restarts when retriggered.
When S switches ON, the output R switches ON for t.
If S triggers again during t, the time t restarts from zero.
After the final t expires, R switches OFF.

M – Puls shaping

The function provides a fixed output pulse after S switches OFF.
When S switches ON, R remains OFF.
When S switches OFF, the output R switches ON for t.
After t expires, R switches OFF.

Time functions | Indicator functions B, B1, B2

B – Indicator, pulse start

The function provides periodic ON and OFF switching starting with an ON pulse.
When S switches ON, the output R switches ON for time t, then switches OFF for time t.
R switches ON and OFF periodically until S switches OFF. R switches OFF with S.

B1 – Indicator, pulse start, trailing pulse

The function provides periodic ON and OFF switching starting with an ON pulse and ending with a trailing pulse.
the output R switches ON for time t, then switches OFF for time t.
R switches ON and OFF periodically until S switches OFF.
When S switches OFF, the output R switches ON once more for t, then R switches OFF.

B2 – Indicator, interval start

The function provides periodic ON and OFF switching starting with an OFF interval.
When S switches ON, the output R remains OFF for t, then R switches ON for time t.
R switches ON and OFF periodically until S switches OFF. R switches OFF with S.

Time functions | Delayed pulse G, H

G – On delay single shot

The function provides an output pulse after a delay.
When S switches ON, the delay t₁ starts.
After t₁ expires, the output R switches ON for t₂.
After t₂ expires, R switches OFF.
During t₂, S has no influence on R.

H – On delay single shot

When S switches ON, the delay t₁ starts.
After t₁ expires, the output R switches ON for t₂.
After t₂ expires, R switches OFF.
When S switches OFF, R switches OFF

Time functions | Repeat cycle timer I, P

I – Repeat cycle timer, pulse start

The function provides periodic ON and OFF switching starting with an ON pulse.
When S switches ON, the output R switches ON for t₁.
After t₁ expires, R switches OFF for t₂.
Afterwards R switches ON and OFF periodically according to t₁ and t₂.
When S switches OFF, R switches OFF.

P – Repeat cycle timer, interval start

The function provides periodic ON and OFF switching starting with an OFF interval.
When S switches ON, the delay t₁ starts, and R remains OFF for t₁.
After t₁ expires, the output R switches ON for t₂.
Afterwards R switches ON and OFF periodically according to t₁ and t₂.
When S switches OFF, R switches OFF.

Time functions | Special functions Y, S, LS

Y - Star–delta timer

The function provides automatic switching from star operation to delta operation.
When S switches ON, the time t starts, and the star output R switches ON.
After t expires, the star output switches OFF and the delta output switches ON.
When S switches OFF, both outputs switch OFF.

S - Step-on / Step-off switch

The function provides stepwise switching with each activation of the trigger.
Each time S switches, the output R changes state for time t.
The trigger has no time-dependent influence.

LS - Step-switching (staircase lighting timer)

The function provides timed activation with optional stop and reset control.
When S is triggered, the time t starts, and the output R switches ON.
When S is triggered again, the time t stops and R switches OFF.
WhenS is triggered again, the time t resets and starts again immediately.
When t expires, the output R switches OFF.

Time functions | Pulse sequence monitoring U, V

U – Pulse sequence monitoring

The function provides monitoring of pulse separation and triggers an alarm if pulses are too close together. If the separation becomes smaller than the set time tP, an alarm output is activated after an additional delay tV. The monitoring starts with S1 or S2.
If the pulse separation of P is smaller than tP, an alarm output is activated after the alarm delay tV.
If the pulse separation is larger than tP, no alarm is triggered.
The start‑up behaviour depends on the selected input S1 (Monitoring begins immediately with the first pulse. There is no suppression of alarm monitoring during start‑up.) or S2 (Monitoring begins after the short‑out time tA to prevent false alarms during system start-up)

V – Pulse sequence monitoring

The function provides monitoring of pulse separation and triggers an alarm if pulses are too far apart.
The monitoring starts with S1 or S2.
If the pulse separation of P is larger than tP, an alarm output is activated after the alarm delay tV.
If the pulse separation is smaller than tP, no alarm is triggered.
The start‑up behaviour depends on the selected input S1 (without start‑up short‑out tA) or S2 (with start‑up short‑out tA).