TAMAGAWA TS5005N122 TS5005N122 TS5005N122 TS5005N122 TS5005N122 TS5005N122

TS5005N122?

Guang Zhou Lai Jie Electric Co.,LTD

Please contact with “Tommy” for the price

TS3218N42

TS3218N5

TS3250E12

TS3275N125

TS3153N15E18

TS3602N213E8

TS3602N233E8

TS3602N31E8

TS3617N1E1

TS3617N1E2

TS3617N11E1

TS3617N1E3

TS3617N2E4

TS3617N2E5

TS3617N2E6

TS3617N2E7

TS3617N3E10

TS3617N3E8

TS3617N13E8

TS3617N376

TS3617N381

umber of stop bits 1 (default), 2
Flow control Hardware, software
Wait time 0 to 65535 ms 10K Ω to +5 V on B, PROFIBUS Pin 3
10K Ω to GND on A, PROFIBUS Pin 8
Internal bias options provided, or no internal bias. In all cases,
external termination is required, see Biasing and terminating an
RS485 network connector (Page 564) and Configuring the RS422
and RS485 in the System Manual (Page 599)
Receiver input impedance 5.4K Ω min. including termination
Receiver threshold/sensitivity +/- 0.2 V min., 60 mV typical hysteresis
Isolation
RS485 signal to chassis ground
RS485 signal to CPU logic common
500 VAC, 1 minute
Cable length, shielded 1000 m max. (baud rate dependent)
Baud rate 300 baud, 600 baud, 1.2 kbits, 2.4 kbits, 4.8 kbits, 9.6 kbits (default),
19.2 kbits, 38.4 kbits, 57.6 kbits, 76.8 kbits, 115.2 kbits,
Parity No parity (default), even, odd, Mark (parity bit always set to 1),
Space (parity bit always set to 0)
Number of stop bits 1 (default), 2
Flow control XON/XOFF supported for the RS422 mode
Wait time 0 to 65535 ms
Table A- 227 Power supply
Technical data CM 1241 RS422/485
Power loss (dissipation) 1.2 W
From +5 VDC 240 mA
Table A- 228 RS485 or RS422 connector (female) Logic or communication ground 6 PWR +5V with 100 ohm series resistor: Output
2 TxD+ 1 Connected for RS422
Not used for RS485: Output
7 Not connected
3 TxD+ Signal B (RxD/TxD+): Input/Output 8 TXD- Signal A (RxD/TxD-): Input/Output
4 RTS 2 Request to send (TTL level) Output 9 TXD- 1 Connected for RS422
Not used for RS485: Output
5 GND Logic or communication ground Pins 2 and 9 are only used as transmit signals for RS422.
2 The RTS is a TTL level signal and can be used to control another half duplex device based on this signal. It is active
when you transmit and is inactive all other times. The follog manuals contain the technical specification for the TS Adapter IE Basic and
the TS Adapter modular:
● Industrial Software Engineering Tools
Modular TS Adapter
● Industrial Software Engineering Tools
TS Adapter IE Basic These input simulators are not approved for use in Class I DIV 2 or Class I Zone 2
hazardous locations. The switches present a potential spark hazard/explosion hazard if
used in a Class I DIV 2 or Class I Zone 2 location. The CSM1277 is an Industrial Ethernet compact switch module. It can be used to multiply
the Ethernet interface of the to allow simultaneous communication with operator
panels, programming devices, or other controllers. It provides the follog features:
● 4 x RJ45 sockets for connecting to Industrial Ethernet
● 3 pole plug in terminal strip for connection of the external 24 VDC supply on top
● LEDs for diagnostics and status display of Industrial Ethernet ports
● Order number 6GK7 277-1AA00-0AA0
For more information about this product and for the product documentation, refer to theThe PM 1207 is a power supply module for the SIMATIC . It provides the follog
features:
● Input 120/230 VAC, output 24 VDC/2.5A
● Order number 6ESP 332-1SH71
For more information about this product and for the product documentation, refer to the The CPU has an internal power supply that provides power for the CPU itself, for any
expansion modules, and for other 24 VDC user power requirements.
There are four types of expansion modules:
● Signal modules (SM) are installed on the right-side of the CPU. Each CPU allows a
maximum number of signal modules possible without regard to the power budget.
– CPU 1214C and CPU 1215C allows 8 signal modules
– CPU 1212C allows 2 signal modules

TS3617N3E9

TS3617N13E9

TS3617N40E3

TS3617N47E4

TS3624N1E1

TS3624N21E1

TS3624N21E2

TS3624N1E2

TS3624N102E4

TS3624N103E5

TS3624N203E5

TS3624N22E4

TS3624N23E5

TS3624N2E3

TS3624N2E4

TS3624N3E5

TS3624N3E6

TS3630N1303E9

CPU 1211C allows no signal modules
● Communication modules (CM), are installed on the left-side of the CPU. A maximum of 3
communication modules is allowed for any CPU without regard to the power budget.
● Signal boards (SB), communications boards (CB), and battery boards (BB) are installed
on top of the CPU. A maximum of 1 signal board, communication board, or battery board
is allowed for any CPU.
Use the follog information as a guide for determining how much power (or current) the
CPU can provide for your configuration.
Each CPU supplies both 5 VDC and 24 VDC power:
● The CPU provides 5 VDC power for the expansion modules when an expansion module
is connected. If the 5 VDC power requirements for expansion modules exceed the power
budget of the CPU, you must remove expansion modules until the requirement is within
the power budget.
● Each CPU has a 24 VDC sensor supply that can supply 24 VDC for local input points or
for relay coils on the expansion modules. If the power requirement for 24 VDC exceeds
the power budget of the CPU, you can add an external 24 VDC power supply to provide
24 VDC to the expansion modules. You must manually connect the 24 VDC supply to the
input points or relay coils.
WARNING
Connecting an external 24 VDC power supply in parallel with the DC sensor supply can
result in a conflict between the two supplies as each seeks to establish its own preferred
output voltage level.
The result of this conflict can be shortened lifetime or immediate failure of one or both
power supplies, with consequent unpredictable operation of the PLC system.
Unpredictable operation could result in death, severe personal injury and/or property
damage.
The DC sensor supply on the CPU and any external power supply should provide power
to different points. A single connection of the commons is allowed. 1XB0)