产品描述
6ES7901-3DB30-0XA0西门子编程电缆
6ES7901-3DB30-0XA0西门子编程电缆
6BK1942-2AA00-0AA0 SIPLUS HCS4200 POM4220 低端 带有 16 个输出端,每个高 1449 W(230 VAC 时) |
Power Output Module (POM)
The Power Output Modules (POMs) are an essential component of the SIPLUS HCS4200 heating control system.
Up to 24 Power Output Modules can be operated on one Central Interface Module (CIM), split over 2 racks.
There are 4 Power Output Module versions:
POM4220 Lowend
POM4220 Midrange phase control
POM4220 Highend
POM4220 Flexible
16 outputs for switching resistive loads.
Rated voltage 230 V AC
A current of up to 6.3 A can be used per output.
The two phases and neutral conductor are connected via a 3-pin connector (mating connectors are included in the scope of delivery).
The heat emitters are connected via two 8-pin connectors (mating connectors are included in the scope of delivery).
One fuse per output for supply circuit.
Module simply slides into the rack.
Heat dissipation via an optional fan module at the top of the rack (for 4 POM4220).
Attachment is with one screw at the bottom and another one at the top.
Three diagnostics LEDs for displaying module faults.
Sixteen diagnostics LEDs for displaying errors at the outputs.
12 outputs for switching resistive loads.
Rated voltage 230 V AC and 277 V AC
A current of up to 16 A can be used per output.
The two phases and neutral conductor are connected via a 3-pin connector (mating connectors are included in the scope of delivery).
The heat emitters are connected via two 6-pin connectors (mating connectors are included in the scope of delivery).
One fuse per output for supply circuit.
Module simply slides into the rack.
Heat dissipation via an optional fan module at the top of the rack (for 4x POM4220).
Attachment is with one screw at the bottom and another one at the top.
Three diagnostics LEDs for displaying module faults.
Twelve diagnostics LEDs for displaying errors at the outputs
8 outputs for switching resistive loads.
Rated voltage 230 V AC, 277 V AC, 400 V AC and 480 V AC
A current of up to 20 A can be used per output.
The two phases and neutral conductor are connected via a 3-pin connector (mating connectors are included in the scope of delivery).
The heat emitters are connected via two 4-pin connectors (mating connectors are included in the scope of delivery).
One fuse per output for supply circuit.
Module simply slides into the rack.
Heat dissipation via an optional fan module at the top of the rack (for 4x POM4220).
Attachment is with one screw at the bottom and another one at the top.
Three diagnostics LEDs for displaying module faults.
Eight diagnostics LEDs for displaying errors at the outputs.
12 outputs for switching resistive loads.
Rated voltage 45 V AC, 70 V AC, 110 V AC, 230 V AC and 277 V AC.
A current of up to 16 A can be used per output.
The two phases and neutral conductor are connected via a 3-pin connector (mating connectors are included in the scope of delivery).
The heat emitters are connected via two 6-pin connectors (mating connectors are included in the scope of delivery).
One fuse per output for supply circuit.
Module simply slides into the rack.
Heat dissipation via an optional fan module at the top of the rack (for 4x POM4220).
Attachment is with one screw at the bottom and another one at the top.
Three diagnostics LEDs for displaying module faults.
Twelve diagnostics LEDs for displaying errors at the outputs
Power triacs
Protection of triacs and opto-triacs against overvoltages by Transil diodes
Transfer of the diagnostics information to the central interface module (CIM)
Power Output Module POM4220 Lowend and POM4220 Flexible
Half-wave control:
This is the control type in normal operation. At every zero crossover, the output is controlled depending on the parameterized setpoint value. The controller outputs are set in values from 0 to **.
Power Output Module POM4220 Midrange phase control
Half-wave control:
This is the control type in normal operation. At every zero crossover, the output is controlled depending on the parameterized setpoint value. The control variable is set to values between 0 and **.
Soft start:
Phase control is executed for a limited time in order to achieve a gradual warming of the heating elements (e.g. for shortwave infrared sources). Switches to half-wave control when the time has expired. The control variable is set to values between 0 and **.
Various soft start versions are available for selection:
Version 1: Time-optimized version of the soft start that enables the heating elements to be warmed up very quickly.
The time required for one channel is about 500 ms.
Version 2: Slower version of the soft start that ensures the heating element is not unduly loaded.
The time required for one channel is about 2 s.
Phase control:
Phase control is executed permanently in order to achieve even heat dissipation and avoid disruptive emitter flickering with low setpoints. Phase control can sometimes cause EMC interference on the power supply lines which then has to be filtered on the system side.
Power Output Module POM4220 Highend
Half-wave control:
This is the control type in normal operation. At every zero crossover, the output is controlled depending on the parameterized setpoint value. The controller outputs are set in values from 0 to **.
Soft start:
Phase control is executed for a limited time in order to achieve a gradual warming of the heating elements (e.g. for shortwave infrared sources). Switches to half-wave control when the time has expired. The control variable is set to values between 0 and **.
Various soft start versions are available for selection:
Version 1: Time-optimized version of the soft start that enables the heating elements to be warmed up very quickly.
The time required for one channel is about 500 ms.
Version 2: Slower version of the soft start that ensures the heating element is not unduly loaded.
The time required for one channel is about 2 s.
Adaptive soft start: During the adaptive soft start the phase angle is adapted to the existing heating element during runtime to avoid fuse triggering but to achieve the highest possible starting speed. The duration of the soft start is therefore dependent on the heating element being used.
Phase control:
Phase control is executed permanently in order to achieve even heat dissipation and avoid disruptive emitter flickering with low setpoints. Phase control can sometimes cause EMC interference on the power supply lines which then has to be filtered on the system side.
Power Output Module POM4220 Lowend
16 power outputs of 230 V each (8 outputs per phase)
Switching capacity per output: Max. 1449 W at 230 V.
Please note: Short-wave halogen or infrared emitters, so-called flash emitters, have a high switch-on current due to their relatively low cold resistance. This switch-on current can be a multiple of the rated current especially during the initial half-waves. This can lead to the fuse being triggered. There is a limit to a switching capacity of 750 W when using flash emitters at 230 V.
Switching capacity per Power Output Module: Max. 16100 W at 230 V
Power Output Module POM4220 Midrange phase control
12 power outputs of 230 V/277 V each (6 outputs per phase)
Switching capacity per output: Max. 3680 W at 230 V or 4432 W at 277 V.
Please note: Short-wave halogen or infrared emitters, so-called flash emitters, have a high switch-on current due to their relatively low cold resistance. This switch-on current can be a multiple of the rated current especially during the initial half-waves. This can lead to the fuse being triggered. There is a limit to a switching capacity of 1600 W when using flash emitters at 230 V.
Switching capacity per Power Output Module: max. 23,000 W at 230 V or 27,700 W at 277 V.
Power Output Module POM4220 Highend
8 power outputs of 230 V/277 V or 400 V/480 V each (4 outputs per phase)
Switching capacity per output: max. 4600 W at 230 V, 5540 W at 277 V, 8000 W at 400 V at 9600 W at 480 V.
Please note: Short-wave halogen or infrared emitters, so-called flash emitters, have a high switch-on current due to their relatively low cold resistance. This switch-on current can be a multiple of the rated current especially during the initial half-waves. This can lead to the fuse being triggered. There is a limit to a switching capacity of 2700 W at 230 V and 4800 W at 400 V when using flash emitters.
Switching capacity per Power Output Module: max. 23,000 W at 230 V, 27,700 W at 277 V, 40,000 W at 400 V and 48,000 W and 480 V.
Power Output Module POM4220 Flexible
12 power outputs of 230 V/277 V each (6 outputs per phase)
Switching capacity per output: max. 720 W at 45 V, 1120 W at 70 V, 1760 W at 110 V, 3680 W at 230 V or 4432 W at 277 V.
Please note: Short-wave halogen or infrared emitters, so-called flash emitters, have a high switch-on current due to their relatively low cold resistance. This switch-on current can be a multiple of the rated current especially during the initial half-waves. This can lead to the fuse being triggered. There is a limit to a switching capacity of 1600 W when using flash emitters at 230 V.
Switching capacity per Power Output Module: max. 23,000 W at 230 V or 27,700 W at 277 V.
Function | POM4220 Lowend / Flexible | POM4220 Midrange Phase control | POM4220 Highend |
Half-wave control | X | X | X |
Phase control | X | X | |
Stipulated soft start (fixed number of half-waves) | X | X | |
Adaptive soft start | X | ||
Explicit heating switch-on | X | X | X |
Time-delayed channel start-up | X | X | X |
Soft start during heater operation | X | ||
Channel control via setpoints | X | X | X |
Channel control via fields | X | X | X |
Line voltage compensation | X1) | X1) | X |
Power control | X | ||
Parameterization of behavior of the power outputs | X | X | X |
Connection types of the loads: | X | X | X |
Star connection with N conductor (single-phase) | X | ||
Open delta connection (single-phase) | X2) | ||
Star connection without N conductor (2-phase) | X | ||
Two-pole switching | X | X | X |
Monitoring phase connection | X2) | ||
Rotating-field test | X1) | X1) | X |
Line voltage monitoring | X | X | X |
Frequency monitoring | X | X | X |
Temperature monitoring (heat sink temperature) | X | X | X |
Monitoring of power channels | X | ||
Monitoring of power channels with loads connected in parallel | X | ||
Monitoring of total current | X | ||
Monitoring of residual current | X | ||
X1) with P/M-U/I X2) only for economy circuit type of connection |
A fan module can be optionally mounted at the top of the rack so that 4 POMs can be ventilated and controlled dependent on the internal temperature.
An NTC thermistor is installed in the device to monitor the internal temperature. An alarm threshold is defined for the internal temperature. The following reactions are triggered when the threshold is overshot:
Signal to the higher-level controller.
The outputs are deactivated - regardless of which output response was configured for the error.
Implicit diagnostics functions are provided as standard to detect the following faults (diagnostics cycle does not affect the heating power):
Leading fuse defective / triac at high resistance (exception: setpoint value 0%).
Triac failure (exception: setpoint value **).
Connecting cable defective (short-circuit and interruption) or load is defective (short-circuit and interruption)
Additionally for POM4220 Highend: Connecting cable defective (short-circuit and interruption) or load is defective (short-circuit and interruption) with heating elements connected in parallel and residual current too high.
Article number | 6BK1942-2AA00-0AA0 | 6BK1942-2CA00-0AA1 | 6BK1942-2DA00-0AA0 | 6BK1942-2FA00-0AA0 | |
---|---|---|---|---|---|
HCS POM4220 Lowend | HCS POM4220 Midrange phase angle control | HCS POM4220 Highend | HCS POM4220 Flexible | ||
General information |
|
|
|
| |
Product type designation | POM4220 Lowend | POM4220 mid-range phase control | POM4220 High-end | POM4220 Flexible | |
Installation type/mounting |
|
|
|
| |
Mounting type | Screw mounting to rack | ||||
Mounting position | vertical | ||||
Type of ventilation | Self ventilation or forced ventilation | ||||
Supply voltage |
|
|
|
| |
Type of supply voltage | AC | ||||
Rated value (AC) | 230 V; phase - neutral conductor | ||||
● Relative negative tolerance | 10 % | ||||
● Relative positive tolerance | 10 % | 30 % | |||
2nd rated value (AC) | 277 V; phase - neutral conductor | ||||
● Relative negative tolerance | 25 % | ||||
● Relative positive tolerance | 8 % | ||||
3rd rated value (AC) | 400 V; Phase - phase | 110 V; phase - neutral conductor | |||
● Relative negative tolerance | 10 % | ||||
● Relative positive tolerance | 30 % | 50 % | |||
4th rated value (AC) | 480 V; Phase - phase | 70 V; phase - neutral conductor | |||
● Relative negative tolerance | 25 % | 10 % | |||
● Relative positive tolerance | 8 % | 15 % | |||
5th rated value (AC) | 45 V; phase - neutral conductor | ||||
● Relative negative tolerance | 10 % | ||||
● Relative positive tolerance | 15 % | ||||
Line frequency |
|
|
|
| |
● Rated value 50 Hz | Yes | ||||
● Rated value 60 Hz | Yes | ||||
● Relative symmetrical tolerance | 5 % | ||||
Mains buffering |
|
|
|
| |
● Recovery time after power failure, typ. | 1 s | ||||
Connection method |
|
|
|
| |
● Design of electrical connection for supply voltage | plug, 3-pole with spring-type terminal, push-in | ||||
— Connectable conductor cross-sections, solid | 1x (0.2 ... 10 mm²) | 1x (0.75 ... 16 mm²) | |||
— Connectable conductor cross-sections, finely stranded with wire end processing | 1x (0.25 ... 6 mm²) | 1x (0.75 ... 16 mm²) | |||
— Connectable conductor cross-sections for AWG cables | 1x (24 ... 8) | 1x (18 ... 4) | |||
Input voltage |
|
|
|
| |
device version of the power supply for electronics | Power supply via rack | ||||
Power |
|
|
|
| |
Active power input, max. | 1 W | 1.5 W | 1 W | ||
Power electronics |
|
|
|
| |
Type of load | Ohmic load | ||||
Power capacity, max. | 16.1 kW; at 230 V AC | 29.4 kW; at 230 V AC | 51.2 kW; At 400 V AC | 29.4 kW; at 230 V AC | |
● For phase against phase with fan at 40 °C, max. | 51.2 kW; At 400 V AC | ||||
● For phase against phase without fan at 40 °C, max. | 12.5 kW; At 400 V AC | ||||
● For phase against neutral with fan at 40 °C, max. | 16.1 kW; at 230 V AC | 29.4 kW; at 230 V AC | |||
● For phase against neutral without fan at 40 °C, max. | 7.3 kW; at 230 V AC | ||||
Switching capacity current per phase, max. | 35 A | 64 A | |||
Short-time withstand current (SCCR) acc. to UL 508A | 50 kA | 100 kA | |||
Control of heating elements |
|
|
|
| |
● Half-wave control | Yes | ||||
● Soft start | No | Yes | No | ||
● Phase control | No | Yes | No | ||
Load connection type |
|
|
|
| |
● Star connection with neutral conductor (single-phase) | Yes | ||||
● Open delta connection (single-phase) | No | Yes | No | ||
● closed delta connection (2-phase) | No | ||||
● Closed delta connection (3-phase) | No | ||||
● Star connection with neutral conductor (2-phase) | No | Yes; Economy circuit | No | ||
● star connection without neutral conductor (3-phase) | No | ||||
● 2-pole switching | No | Yes; Phase - neutral conductor, phase - phase | No | ||
Setpoint input |
|
|
|
| |
● Percent | Yes | ||||
● Watts | No | Yes | No | ||
The following accessories are available for the Power Output Module:
Fuse 6.3 A/250 V (set with 50 fuses) as spare part (for POM4220 Lowend)
Fuse 16 A/500 V (set with 50 fuses) as spare part (for POM4220 Midrange phase control)
Fuse 25 A/500 V (set with 50 fuses) as spare part (for POM4220 Highend)
3-pin connector set (block with 10 connectors) for connecting the incoming supply (for POM4220 Lowend)
3-pin connector set (block with 10 connectors) for connecting the incoming supply (for POM4220 Midrange phase control, Highend and Flexible)
8-pin connector set (block with 10 connectors) for connecting the heating elements (for POM4220 Lowend)
6-pin connector set (block with 10 connectors) for connecting the heating elements (for POM4220 Midrange phase control and Flexible)
Connector set 4-pin (block with 10 connectors) for connecting the heating elements (for POM4220 Highend)
6ES7901-3DB30-0XA0西门子编程电缆 6ES7901-3DB30-0XA0西门子编程电缆
您是第268860位访客
版权所有 ©2024 八方资源网 粤ICP备10089450号-8
浔之漫智控技术(上海)有限公司 保留所有权利.
浔之漫智控技术(上海)有限公司 保留所有权利.
技术支持: 八方资源网 八方供应信息 投诉举报 网站地图手机网站
微信号码
地址:上海市 松江区 小昆山镇 荡湾村 广富林4588弄52号3楼
联系人:颜经理女士
微信帐号:X15021292620