 |
| Place of Origin: | Japan |
| Brand Name: | Tamagawa |
| Certification: | CE |
| Model Number: | TS5208N23 |
| Minimum Order Quantity: | 1pcs |
|---|---|
| Packaging Details: | carton |
| Delivery Time: | in stock |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 100pcs/week |
| Tamagawa: | Tamagawa | TS5208N23: | TS5208N23 |
|---|---|---|---|
| Japan: | Japan | Material: | Iron |
| Color: | Gray | Temperature: | 30-80 |
| Dimension: | 40mm | Wire: | Wire |
TS3103N156
TS5208N23
TS3653N11E1
TS3653N11E2
TS3653N11E3
TS3653N12E4
TS3653N12E5
TS3653N12E6
TS3653N13E7
TS3653N13E8
TS3653N13E9
TS3103N40
TS3641N1E1
TS3641N2E3
TS3641N11E1
TS3641N12E3
TS3664N1E1
TS3664N1E2
TS3664N2E3
TS3664N2E4
TS3664N11E1
TS3664N11E2
TS3664N12E3
TS3664N12E4
| You can calculate Current Consumption I in this rack as follows | |
| with the data from the individual data sheets:From the data in the table, |
|
| you can see that you must install a power supply |
module PS 407 10A (for connection to 120/230 VAC) or PS 405 10A (for
connection to 24 VDC) in the rack, to cover the current consumption calculated
here.
Note
If you wish to connect an ER to the CR via a send IM with current transfer, you
must also take the current consumption of this ER into account when choosing the
power supply module.The input and output circuits (load current circuits) as well as sensors and
actuators are powered by the load current power supply. Listed in the following are
the characteristics of the load current power supplies required in special
applications for choosing the load current power supplies.Safe isolation Modules which must be
supplied with voltages
≤ 60 VDC
or ≤ 25 VAC.
The SITOP power load current
supplies have this characteristic.
24 VDC load circuits
Tolerances of the
output voltages:
20.4 V to 28.8 V
40.8 V to 57.6 V
51 V to 72 V
24 VDC load circuits
48 VDC load circuits
60 VDC load circuits
If the output voltage tolerances are
exceeded, you should provide an energy
storage capacitor. Rating: 200 μF per 1 A
load current (with bridge rectification).The DC load current power supply must meet the following requirements:
Only a safe, isolated extra-low voltage of ≤ 60 VDC may be used as the load
current supply. Isolation may be implemented according to the requirements of the
following, amongst other publications:
VDE 0100-410 / HD 384-4-41 S2 / IEC 60364-4-41
(as a functional extra-low voltage with isolation) or
VDE 0805 / EN 60950 / IEC 60950
(as a safety extra-low voltage SELV) or VDE 0106 Part 101.
Determining the Load Current
The required output load current is determined by the accumulated current of all
sensors and actuators connected to the outputs.
IN the case of a short-circuit, a current of two to three times the rated output
current flows briefly at DC outputs before the switched electronic short-circuit
protection bees effective. When selecting the load current power supply,
therefore, you must ensure that the increased short-circuit current is available. With
unregulated load current power supplies, this excess current is generally ensured.
With regulated load current power supplies, particularly at low output levels (up to
20 A), you must ensure a suitable excess current.In grounded supplies, the neutral conductor of the system is grounded. A single
fault between a live conductor and ground or a grounded part of the installation
results in tripping of the protective devices.
ponents and Protective Measures
Various ponents and protective measures are specified for assembling a full
installation. The types of ponents and whether the protective measures are
mandatory or remended depends on the VDE specification applying to your
installation, VDE 0100 or VDE 0113. The following table relates to Figure 4-1.
Table 4-1 VDE Specifications for Assembling a Programmable ControllerDisconnection element for control
system, sensors, and actuators
¡ ... Part 460:
Main switches
... Part 1:
