4. Example: Access via transponder and shared secondary code
The shared secondary code applies to all transponders (but separate codes can be
programmed for output #1 and output #2).
Observe:
Before you can perform the following programming steps, you need to programme a
shared secondary code; see chapter 11. f). Otherwise, this programming is not possible
and you will be shown an error message.
(a)
(b)
(a) Output #1 is to be switched
(b) Access via transponder + subsequent input of the secondary code
(c) Memory slot number "003" (output #1 can use: 000 - 999)
(d) Hold transponder in front of the sensor surface (distance < 2 cm)
(e) Save programming (code lock emits two beeps)
(a)
(b)
(a) Output #2 is to be switched
(b) Access via transponder + subsequent input of the secondary code
(c) Memory slot number "029" (output #2 can use: 001 - 100)
(d) Hold transponder in front of the sensor surface (distance < 2 cm)
(e) Save data (code lock emits two beeps)
While the code lock is in regular operation (not in programming mode!), first hold a valid
transponder in front of the sensor surface at the bottom of the code lock (distance < 2
cm).
The code lock emits a beep and the left LED (1) flashes (orange).
Now enter the shared secondary code within 30 seconds and push the crosshatch
button
If you switch on the "Auto-Entry" function (see chapter 11. m), you do not need to
push the crosshatch button
immediately after input of the correct secondary code.
90
(Reading transponder)
(c)
(Reading transponder)
(c)
. The code lock will now switch the corresponding output.
(d)
(e)
(d)
(e)
. The code lock will switch the corresponding output