TAMAGAWA TS5308N616 TS5308N616 TS5308N616 TS5308N616 TS5308N616 TS5308N616

Please contact with “Tommy” for the price

TS3153N15E18

TS3602N213E8

TS3602N233E8

TS3602N31E8

TS3617N1E1

TS3617N1E2

for indoor and outdoor areas; 1.2 m connecting cable
connected permanently to the antenna; SMA
connector, including adhesive pad, screws mounting
possible Below, you will find several configuration examples for stations with a CP 1242-7.
Below, you will find several configuration examples for stations with a CP 1242-7.
Below, you will find several configuration examples for stations with a CP 1242-7.
Below, you will find several configuration examples for stations with a CP 1242-7.
Below, you will find several configuration examples for stations with a CP 1242-7. In telecontrol applications, SIMATIC stations with a CP 1242-7 communicate with a
control center via the GSM network and the Internet. The "TELECONTROL SERVER
BASIC" (TCSB) application is installed on the telecontrol server in the master station. This
results in the follog use cases:

In telecontrol applications, SIMATIC stations with a CP 1242-7 communicate with a
control center via the GSM network and the Internet. The "TELECONTROL SERVEIn this configuration, two SIMATIC stations communicate directly with each other
using the CP 1242-7 via the GSM network. Each CP 1242-7 has a fixed IP address. The
relevant service of the GSM network provider must allow this. The connection runs via the telecontrol server.
● The engineering station and telecontrol server are connected via the Intranet (LAN) or
Internet.
● The telecontrol server and remote station are connected via the Internet and via the GSM
network.
The engineering station and telecontrol server can also be the same computer; in other
words, STEP 7 and TCSB are installed on the same computer. The connection runs via the TeleService gateway.
The connection between the engineering station and the TeleService gateway can be local
via a LAN or via the Internet. The TM_MAIL instruction sends an email
message using the SMTP (Simple Mail
Transfer Protocol) over TCP/IP via the
CPU Industrial Ethernet connection. Where
Ethernet-based Internet connectivity is not
available, an optional Teleservice adapter
can be used for connection with telephone
land lines. TM_MAIL executes
asynchronously and the job extends over
multiple TM_MAIL calls. When you call
TM_MAIL, you must assign an instance
DB. The instance DB retentive attribute
must not be set. This ensures that the
instance DB is initialized in the transition of
the CPU from STOP to RUN and that a
new TM_MAIL operation can be triggered.
1 STEP 7 automatically creates the instance DB when you insert the instruction.
You start sending an email with a positive edge change from 0 to 1, at input parameter REQYou start sending an email with a positive edge change from 0 to 1, at input parameter REQ.
The follog table shows the relationship between BUSY, DONE and ERROR. You can
monitor the progress of TM_MAIL execution and detect completion, by evaluating these
parameters in successive calls.
The output parameters DONE, ERROR, STATUS, and SFC_STATUS are valid for only one
cycle, when the state of the output parameter BUSY changes from 1 to 0. Your program
logic must save temporary output state values, so you can detect state changes in
subsequent program execution cycles. If the CPU is changed to STOP mode while TM_MAIL is active, then the communication
connection to the email server is terminated. The communication connection to the email
server is also lost if problems occur in CPU communication on the Industrial Ethernet bus. In
these cases, the send process is suspended and the email does not reach the recipient. Only change the parts of your user program that directly affect the TM_MAIL calls in the
follog cases:
 The CPU in the STOP mode
 No email is sent (REQ and BUSY = 0)
This refers, in particular, to the deletion and replacement of program blocks, the calls to
TM_MAIL, or calls to the instance DBs of TM_MAIL.
If you fail to maintain linked program blocks, then the TPC/IP communication functions can
enter an undefined state. After transferring a modified program block, you must perform a
CPU restart (warm) or cold start.
The input parameter ADDR_MAIL_SERVER is read when the operation is started. A new
value does not take effect until the current operation is complete and a new TM_MAIL
operation is initiated.
In contrast, the parameters WATCH_DOG_TIME, TO_S, CC, FROM, SUBJECT, TEXT,
ATTACHMENT, USERNAME and PASSWORD are read during the execution of TM_MAIL
and may be changed only when the job is finished (BUSY = 0) A low to high (positive edge) signal starts the operation.
ID IN Int Connection identifier: See the ID parameter of the
instructions TCON, TDISCON, TSEND and TRCV.
A number that is not used for any additional instances of this
instruction in the user program must be used.
TO_S IN String Recipient addresses: STRING data with a maximum length
of 240 characters CC copy to recipient addresses (optional): STRING data
with a maximum length of 240 characters
SUBJECT IN String Subject name of the email: STRING data with a maximum
length 240 characters.
TEXT IN String Text message of the email (optional): STRING data with a
maximum length of 240 characters.
If this parameter is an empty string, then the email will be
sent without message text.
ATTACHMENT IN Variant Pointer to email attachment data: Byte, word, or double
word data with a maximum length of 65534 bytes.
If no value is assigned, then the email sent without an
attachment.
DONE OUT Bool  0 - Job not yet started or still executing.
 1 - Job was executed error-free.