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Field
Valid Inputs
eee
xyy
0000 – 9998
ffff
gggg 0000
Valid hexadecimal pairs per
jj...j
character followed by a
termination character.
Example 1
The following example encodes an HF tag, starting at block 001, with "Datamax writes
RFID best".
<STX>L
D11<CR>
2W1x00000
00010000446174616D61782077726974657320524649442062657374<CR>
E
Example 2
The following format encodes a UHF Gen2 tag with EPC data
"112233445566778899AABBCC" and user memory data "1111222233334444".
<STX>L
282
Meaning
HF: Lock after write, where:
x = 0 – Use printer setup to determine if lock is performed.
x = 1 – Lock after write.
yy = Not Used
UHF EPC Gen2: Lock after write, where:
x = 0 – Use printer setup to determine if lock is performed.
x = 1 – Lock after write.
yy = Lock state where "01"is permalock, "10" is pwd-write lock,
and "11" is both states
UHF other tag types: Not Used, should be 000
HF: Starting block number to write.
UHF EPC Gen2: Block address where "0001" is EPC data, "0002"
is Tag ID or "0003" is user memory. Using "0000" is for EPC data
also (for backwards compatibility).
UHF other tag types: Not Used, should be 0000
HF: Not Used, should be 0000
UHF EPC Gen2: Data word offset – currently only used for read
operation
UHF other tag types: Not Used, should be 0000
Data to write to the tag.
UHF data length must be 16 or 24 for EPC. 16 for Tag ID or mul-
tiples of four for user memory sections.
DPL Command Reference
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