 |
| Place of Origin: | Japan |
| Brand Name: | Tamagawa |
| Certification: | CE |
| Model Number: | TS5212N500 |
| Minimum Order Quantity: | 1pcs |
|---|---|
| Packaging Details: | carton |
| Delivery Time: | in stock |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 100pcs/week |
| TAMAGAWA: | TAMAGAWA | Material: | Iron |
|---|---|---|---|
| Color: | Black | Temperature: | 40-120 |
| Dimension: | 50mm | Wire: | Wire |
| TS5212N500: | TS5212N500 |
TS5212N500
Guang Zhou Lai Jie Electric Co.,LTD
Please contact with “Tommy” for the price
TS3684N1E3
TS3684N2E6
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TS3103N40
TS3641N1E1
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TS3630N1E1
TS3630N1E2
TS3630N2E3
| The minimum Ti value of 875 µs which you can set in HW Config is derived from the defined | |
| TWE value plus calculation and transfer times required by the IM 153. | |
| The specified TDPmin value is determined by the size of the DP slave/IM 153 configuration: Of |
he diverse installed modules, the slowest always determines the time TDPmin.
Note
When operated in "isochronous" mode, the modules automatically sets "Integration time:
none/interference frequency", irrespective of parameter settings in STEP 7. none /
interference frequency". "Process interrupt" functionality is not available in "isochronous"
mode.
The same time conditions always apply, regardless of the number of configured channels.
The time relative to the clock signal for reading a specific channel is calculated according to
the formula:
TWE_CH = (channel number +1) x 52 µs + tv; tv = 119 to 209 µs
The module starts with the analog-to-digital conversion of channel 7, and saves the result
internally. Next, it converts channels 6...0 sequentially at intervals of 52 ms and in the sameway. After an additional internal processing time, it outputs the result of all converted
channels to the backplane bus interface where it can be fetched by the CPU.Further information
You can find additional information on isochronous mode in the online help for STEP 7, andin the operating instructions Distributed I/O System ET 200M
You should wire unused channels as shown in the following table. This optimizes
interference immunity of the analog input module.Measuring range M+/ M- M_ana
Voltage short-circuit connect with MCurrent/ 4-wire transducer leave open connect with MCurrent
/ 2-wire transducer leave open connect with M
As certain programmed inputs may remain unused due to the channel group configuration,make allowances for the special features of these inputs outlined below in order to be able to
use the diagnostics functions at these used channels:
● Measuring range 1 V to 5 V: wire the used input and unused input of the same channelgroup in parallel.
● Current measurement, 2-wire transducer: There are two options of wiring the channel
circuit.
a) Open unused inputs; channel group diagnostics disabled. If you were to enablediagnostics, the analog module would trigger a single diagnostic interrupt, and light up its
SF LED.
diagnostics for this channel group.
