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Zebra S600 Haberleşme Ayarları Nasıl Yapılır?
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Mesaj
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^XA^SC19200,8,N,1,X,N^XZ
^XA^JUS^XZ
bunu bir text dosyaya yazdim ve text dosyayi command da
Copy A.txt lpt1:
deyip yazıcıya attım.
daha sonra kapattım ve configuration cıktısı aldım cancel a basılı tutarak veee
artık baud rate 19200 olmustu.
daha da aydınlanmak istiyenler için dokumanı aşağıya attım.
Connecting the S400/S600 Printer to a Host or Computer
This printer comes with both a nine-pin Electronics Industries Association (EIA) RS-232 serial data interface and an IEEE 1284 bi-directional parallel data interface. In either case, you must supply the required interface cable for your application.
CAUTION: This printer complies with FCC “Rules and Regulations,” Part 15, for Class B Equipment, using fully shielded six-foot data cables. Use of longer cables or unshielded cables may increase radiated emissions above the Class B limits.
RS-232 Interface Requirements
Refer to Figure 2.
The required cable must have a 9-pin “D” type (DB-9P) connector (male) on one end, which is plugged into the mating (DB-9S) connector (female) located inside the access opening on the left side of the printer. The other end of the signal interface cable connects to a serial port at the host computer. This cable will be one of two types -- standard or null modem -- depending on the specific interface requirements. Connection to a PC requires a null modem cable.
The diagram in Figure 1 shows a null modem pinout on the left while the right diagram is a straight through cable.
Figure 1
Parallel Interface Requirements
Refer to Figure 2.
An IEEE 1284 compatible bi-directional parallel data cable is required when this communication method is selected. The required cable must have a standard 36-pin parallel connector on one end, which is plugged into the mating connector located inside the access opening on the left side of the printer. The parallel interface cable is connected using bail clips instead of screws. The other end of the parallel interface cable connects to the printer parallel connector at the host device.
Serial and Parallel Cabling Requirements
Data cables must be fully shielded and fitted with metal or metallized connector shells. Shielded cables and connectors are required to prevent radiation and reception of electrical noise.
To minimize electrical noise pickup in the cable:
1. Keep data cables as short as possible.
2. Do not bundle the data cables tightly with power cords.
3. Do not tie the data cables to power wire conduits.
Figure 2
Communicating with the Printer
Click here for general Zebra Printer Setup in a Windows Environment
Click here for general Zebra Printer Setup in a Unix Environment
Via the Parallel Port
Connect the IEEE1284 compatible cable from the host parallel port to the printer Parallel Interface. The cable should not exceed 10 ft. Cables that do not meet the standard or are too long may result in a failure to communicate properly.
The print auto detects the source of the data. Verify the port settings for your parallel interface are set to Standard AT or other uni-directional settings. Do no use enhanced settings such as EPP or ECP. These are bi-directional and the printer does not support bi-directional communications. Most PCs provide a method of changing or viewing these settings as the PC is booted up. Look for a message that appears when you first turn the PC on.
Via the Serial Port
Set the host computer to the factory defaults of the printer: 9600 baud, 8 bit word length, no parity, 1 stop bit, and XON/XOFF.
NOTE: If you can’t reset the host computer communications settings, then you must establish a temporary parallel connection to send down the Set Communications (^SC) command that changes the printer’s settings to match the host settings.
The ^SC (Set Communications) command allows you to change the communications parameters you are using.
The format for the ^SC command is:
^SCa,b,c,d,e,f
where
^SC = Set Communications
a = Baud Rate (110-19200 baud)
b = Word Length (7 or 8 data bits)
c = Parity (N = none, E = even, O = odd)
d = Stop Bits (1 or 2)
e = Handshake (X = XON/XOFF, D = DTR/DSR)
f = Zebra Protocol N = NONE Z = Zebra A = Ack/Nak)
Example of setting the printer to 9600, 7, E, 2 , DTR flow control.
Establish a temporary parallel connection to the printer and send the following text string....
^XA^SC9600,7,E,1,D,N^XZ
^XA^JUS^XZ ...(This saves the value in the printer memory)
ZPL
The printer will only respond to ZPL. (Zebra Programming Language). ZPL can be generated by a software package such as BAR ONE, a Zebra printer driver or by writing ZPL scripts.
Here's an example of ZPL
^XA
^FO20,20^AG^FDTest Label^FS
^XZ
Sending this script to a properly connected printer will result in one label being printed with the word "Test Label" on it.
AUTOBAUD
To automatically detect the communications parameters, press and hold the PAUSE, FEED, and MODE buttons while turning on the printer, then release the buttons when the CALIBRATE LED goes out. All of the LEDs will go on, while DARKEN, POSITION, and CALIBRATE LEDs will flash. Send a label format using the host computer settings. If the printer accepts the host parameters, all of the LEDs will go off (except for the POWER LED) and the printer will restart with the host communication settings. If the printer does not accept the host communications parameters, the printer will not restart and the LEDs will flash on and off. If this should happen, turn the printer off and then on, and try again.
NOTES: Label formats sent to the printer at this time only help the printer determine the host settings. No label will print until settings are recognized.
In order for autobaud to work, your label must start with either a ^XA or ~XA ZPL II command. If all the LEDs are on, send another label format.
Save the new communication settings by pressing MODE four times.
Autobaud only works for 9600 baud and higher.
DEFAULTING THE PRINTER
To reset only the communications parameters on the printer to the factory defaults (9600 baud, 8 bit word length, no parity, 1 stop bit, and XON/XOFF), press and hold the PAUSE, FEED, and MODE buttons while turning on the printer, then release the buttons when the CALIBRATE LED goes out. All of the LEDs will go on, while the DARKEN, POSITION, and CALIBRATE LEDs will flash. Press and hold the MODE button until all of the lights go out, then release the MODE button. The factory defaults have now been reset. Next, set the communications parameters on your computer to match this.
NOTE: To save the default settings, press the MODE button four times. Otherwise, the previous settings will be restored the next time the printer is turned on.
DETERMINING THE PRINTER COMMUNICATION SETTINGS
CANCEL Key Self Test
This self test prints the printer’s configuration parameters.
To perform the CANCEL key self test:
1. Press the CANCEL button while turning on the printer.
2. Release the button when the CALIBRATE LED turns off.
3. To return to printing mode, turn off and then turn on the printer.
PROBLEMS?
Make sure the printer is in a ready state before communicating a label format. Press the printer's front panel FEED key and assure the printer feeds one label. If it doesn't then it will not respond to any attempts to print a label.
The printer will only respond to ZPL commands. These commands can be written in a text script and transmitted to the printer, generated by a software package or a Zebra printer driver. You can obtain a copy of the ZPL manual from the Zebra Website.
The printer's front panel DATA LED should flash when you send data to the printer. Should you never see the DATA LED flash then focus your efforts on the host and the interface cabling.
If the printer's DATA LED flashes when attempting to print and the printer fails to respond then you should identify that data is in the form of ZPL and the command prefix is correct. Make sure the format prefix used in the ZPL command string matches the settings in the printer. A configuration label shown above shows the Command and Format prefix characters the printer expects to see in the label format. If the format prefix is not correct the printer will not recognize the ZPL data. The carrot "^" character (5E hex) is the default format prefix. This may be altered with the ~CC command. Refer to the ZPL manual for details. This is an important consideration especially in the IBM AS400 environments where the carrot character does not exist as part of the EBCDIC data set.
Use the diagnostic mode of the printer to identify data that is being received by the printer. To do this, hold the front panel MODE button as you power on the printer. Once diagnostics are enabled, send the data and observe the information that is printed. It should contain ZPL commands to function correctly.
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Ip işlemleri
Bu mesaj IP'si ile atılan mesajları ara Bu kullanıcının son IP'si ile atılan mesajları ara Bu mesaj IP'si ile kullanıcı ara Bu kullanıcının son IP'si ile kullanıcı ara
KAPAT X
Bu mesaj IP'si ile atılan mesajları ara Bu kullanıcının son IP'si ile atılan mesajları ara Bu mesaj IP'si ile kullanıcı ara Bu kullanıcının son IP'si ile kullanıcı ara
KAPAT X
