CPF11/DC24V
- 输入可切换(E-E)
- 输入和输出时间可单独设置
- 3(6)种功能可供选择
- 附加续流二极管 1A
- E 和 Q 的 LED 显示屏
| 典型泄漏电流 | 1 µA |
|---|---|
| 浪涌电流 | 2 A, 5 s |
| 输出数量 | 1 NO |
| 输出电压范围 | 10 … 32 V (Potential of +) |
| 输出类型 | PNP Transistor |
| 额定电流 | 0.8 A |
| 额定负载 DC-1 时的电气耐久性(周期) | ∞ |
| 额定负载 直流 | 0.8 A, 32 V |
| 授权 | UKCA,CE,EAC,cURus |
|---|---|
| 标准 | IEC/EN 61812-1 |
| 交流/直流功耗 | - / 0.4 W |
|---|---|
| 工作电压范围 | 15 … 32 V DC |
| 控制输入端 B1 的电流损耗 AC / DC | E1: 5 mA @ 24 V; E2: 1.8 mA @ 24 V |
| 电压输入端A1-A2 的电流损耗 AC / DC | - / 16 mA |
| 输入控制 B1 的阈值电压 AC / DC | E1: 10 V; E2: 16 V |
| 频率范围 | DC |
| 额定电压 | 24 V DC |
| 定时刻度 | 60 ms / 600 ms |
|---|---|
| 定时功能 | Impulsformung (K),Impulsformung | Retrigger (L),Ausschaltverzögerung (A) |
| 定时范围 | 5 ms … 60 ms / 50 ms … 600 ms |
| 电流类型 | 直流 |
|---|---|
| 额定电压 | 24 V |
| 污染等级 | 2 |
|---|---|
| 过电压类别 | III |
| 0.5 Nm | |
| 侵入防护 | IP 20 |
| 外壳材料 | PC |
| 存储温度(无冰) | -40 … 85 °C |
| 导体截面控制/主电路 | 2.5 mm2, 2 x 1.5 mm2 |
| 工作温度 | -25 … 50 °C |
| 环境温度操作降额功率 | -25 … 60 °C (IN 0.7 A) |
| 重量 | 60 g |
| 典型泄漏电流 | 1 µA |
|---|---|
| 浪涌电流 | 2 A, 5 s |
| 输出数量 | 1 NO |
| 输出电压范围 | 10 … 32 V (Potential of +) |
| 输出类型 | PNP Transistor |
| 额定电流 | 0.8 A |
| 额定负载 DC-1 时的电气耐久性(周期) | ∞ |
| 额定负载 直流 | 0.8 A, 32 V |
| 授权 | UKCA,CE,EAC,cURus |
|---|---|
| 标准 | IEC/EN 61812-1 |
| 交流/直流功耗 | - / 0.4 W |
|---|---|
| 工作电压范围 | 15 … 32 V DC |
| 控制输入端 B1 的电流损耗 AC / DC | E1: 5 mA @ 24 V; E2: 1.8 mA @ 24 V |
| 电压输入端A1-A2 的电流损耗 AC / DC | - / 16 mA |
| 输入控制 B1 的阈值电压 AC / DC | E1: 10 V; E2: 16 V |
| 频率范围 | DC |
| 额定电压 | 24 V DC |
| 定时刻度 | 60 ms / 600 ms |
|---|---|
| 定时功能 | Impulsformung (K),Impulsformung | Retrigger (L),Ausschaltverzögerung (A) |
| 定时范围 | 5 ms … 60 ms / 50 ms … 600 ms |
| 电流类型 | 直流 |
|---|---|
| 额定电压 | 24 V |
| 污染等级 | 2 |
|---|---|
| 过电压类别 | III |
| 0.5 Nm | |
| 侵入防护 | IP 20 |
| 外壳材料 | PC |
| 存储温度(无冰) | -40 … 85 °C |
| 导体截面控制/主电路 | 2.5 mm2, 2 x 1.5 mm2 |
| 工作温度 | -25 … 50 °C |
| 环境温度操作降额功率 | -25 … 60 °C (IN 0.7 A) |
| 重量 | 60 g |
C2和C3型工业继电器可通过时间模块改造成时间继电器。当获得具有所需时间功能的时间模块后,将其插入继电器与底座之间。
底座C12B0和CS-155(S5-M)配备有模块插槽,专用于时间模块/监控模块。因此,除了底座和工业继电器外,只需额外添加一个可插拔的时间模块即可。
几乎所有时间继电器的设置过程都相同。首先,通过电位器选择一个功能。每个字母(A、E、W、K 等)代表一个特定功能,该功能在继电器侧或随附说明书中有所描述。
接下来,选择时间范围,所选范围始终为最大值。最后,使用最后一个电位器进行时间微调。例如,要设置 30 秒的延迟关闭,操作如下:
功能:A
时间范围:60 秒
微调:在 0-6 的刻度上,将电位器调至 3(6= 60 秒,3 = 30 秒,1 = 10 秒)。
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.
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.
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.
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.
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
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.
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.
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).
