Rt read and print rfid data, Read and print rfid data – Avery Dennison Monarch 9864 Description of Commands User Manual
Page 70
10/07 Rev. AA
MANUAL EASY PLUG
Commands
All
devices
A = TTX 600 --TLX 604 – Eagle B = TTX 300 Offline -- Cobra Offline D = TTX 300 Online –TTX 207 -- Cobra Online – Da Capo
E = TTX 450/650/674/675/950/1050 – Puma/Puma plus/Lion/Lion plus/Tiger/Tiger XXL -- S45/65/95/105 -- TDI/STDI/XXTREME
G = TTX 350 – Ocelot – TTK – Texxtile H = 64-xx –Chess x –TT4 – DPM – PEM – ALX 92x – AP 4.4/5.4
70
#RT
Read and print RFID data
Definition
This command reads data of a RFID transponder and prints it on its label.
Command must be placed between #ER and #Q!
Syntax
#RTz/dbjk/t/ab/s/n
Group
H
z = int
Character set number (100 to 116, refer to Info-Printout "Font Status" or
refer to topic section "Internal Fonts")
opt.
d = 0
Normal write direction
= 1
Text rotated by 90 degrees
= 2
Text rotated by 180 degrees
= 3
Text rotated by 270 degrees
opt.
b = A
Text printed inversely:
A dark background must first be applied to the print area (line or rectangle).
Inverse printed offset is not possible within Groups A and B.
opt.
j = L
Flush left (default) :
The write command (#T / #J) refers to the left edge of the text field. The
field is built up to the right.
=
M
Middle:
The write command (#T / #J) refers to the centre of the text field. The field
is built up on both sides of the print position.
=
R
Flush
right:
The write command (#T / #J) refers to the right edge of the text field. The
field is built up to the left.
opt.
k = Snum Fixed distance in mm between all characters in the read data string. The
character S has to be succeeded without blank by the value.
t = int
data type
0 = BLOCK
1 = UID
2 = EPC
opt.
a = I
ASCII data assumed on transponder (default)
Each byte on chip is printed as ASCII character on the label.
= B
Binary data assumed:
Each byte chip is printed as hexadecimal number in ASCII presentation on
the label.
opt.
b = L
Least significant byte of block first (default) :
Bytes of each block on transponder are read beginning with the LSB first.
= M
Most significant byte of block first:
Bytes of each block on transponder are read beginning with the MSB first.
s = int
Address of start block
n = int
Number of blocks