User's Manual
Table Of Contents
- Product Manual RFID Reader UF80
- 1 Identification
- 2 Declaration of Conformity
- 3 General Instructions
- 4 Safety Instructions
- 5 Product Specifications
- 6 Installation
- 7 Operation
- 7.1 Operating personnel
- 7.2 Communication protocol ASC-I1
- 7.2.1 Structure of the communication protocol
- 7.2.2 Package contents
- 7.2.3 Commands of protocol
- URY - Read data range (defined EPC code)
- M - Scan EPCs
- W - Write EPC code
- UWZ - Write data range of all EPC transponders (defined EPC code)
- ULZ - Locking all EPC transponders (defined EPC code)
- F - Query parameters
- P - Set parameter
- N - Reset
- O - Set output
- E - Error message
- H - Heartbeat
- V - Query software version
- K - Polling
- UFD - Query DHCP Enabled
- UPD - Set DHCP Enabled
- UFI - Query network settings
- UPI - Set network settings
- UFN - Query host name
- UPN - Set host name
- 7.2.4 Parameter
- Parameter 4 (0x04)
- Parameter 6 (0x06)
- Parameter 11 (0x0B)
- Parameter 12 (0x0C)
- Parameter 16 (0x10)
- Parameter 39 (0x27)
- Parameter 43 (0x2B)
- Parameter 47 (0x2F)
- Parameter 48 (0x30)
- Parameter 50 (0x32)
- Parameter 64 (0x40)
- Parameter 65 (0x41)
- Parameter 66 (0x42)
- Parameter 98 (0x62)
- Parameter 99 (0x63)
- Parameter 118 (0x76)
- Parameter 123 (0x7B)
- Parameter 158 (0x9E)
- Parameter 162 (0x02)
- Parameter 163 (0x00)
- Parameter 176 (0xB0)
- 7.3 Additional information
- 8 Service and Troubleshooting
- 9 Dismantling and Storage
- 10 Transport and Disposal
- 11 Accessories
- Index
Product Manual - RFID Reader UF80 48
Chapter 7
Operation
ULZ – Locking all
EPC transponders
(defined EPC code)
The ULZ command starts to lock all EPC transponders with the corresponding EPC
code located in the field. Several EPC transponders can be located in the write
area of the antenna when using this command.
1) These data are displayed in the order listed for each identified EPC
transponder.
2) The response of the transponder is optional and only appears at result "00".
3) The result and Ex flag is only available in the first transmitted message in
messages with several frames.
Example: Lock the Kill block of an EPC transponder
>> M01
<< m00000010106670488EC41381FAC63FB0530
>> UWZ0106670488EC41381FAC63FB053000000000000000000004FEFEFEFE
FEFEFEFE
<< uwz00000010106670488EC41381FAC63FB053000
Kill password and access word written
Payload 0x0C0300; Permalock=1
>> ULZ0106670488EC41381FAC63FB0530FEFEFEFE00030C
<< ulz00000010106010203040500683D4A960D3000
Since Permalock was set, the Kill password cannot be read or written after the
locking process!
>> UWZ0106670488EC41381FAC63FB053000000000000000000002FEFEFEFE
<< uwz00000010106010203040500683D4A960D3084
Kill password can no longer be written!
Host reader
CMD Reader ID Head ID EPC Access word Payload
ULZ 1 byte 1 byte (2n+1)*2 bytes 8 bytes 6 bytes
Reader host
Overhead response telegram
2)
Data of the participating EPC transponders
1) 2)
CMD
Reader
ID
Frame
ID
Result
3)
Ex flag
3)
Extensions EPC
Transponder
error code
ulz 1 byte 2 bytes 2 bytes 2 bytes 0-12 bytes (2n+1)*2
bytes
2 bytes