User's Manual
r
fid:wieg.qual.bits INT
R/W
Wiegand Qualifier: Number
of bits (0 - 255)
card data must have
to
be acknowledged as
a
read
r
fid:wieg.r
e
v.bits BOOL
R/W
IF True, reverse
bits of
credential
output
lsb
t
o
msb
rfid:wieg.rev.bytes BOOL
R/W
IF True, reverse
the
bytes
of
credential
output
LSB
to MSB
r
fid:wieg.s
trip
.lead.bits
INT
R/W
Leading
parity bit
count
to
be stripped
from
credential data (options:
0 =
none,
1
to
142
bits
)
r
fid:wieg.s
trip
.
tr
ail.bits INT
R/W
Trailing
parity bit
count
to
be stripped
from
credential data (options:
0 =
none,
1
to
142
bits
)
Key:
R
=
read only
command
W = Write
only
command
R/W =
Command can be read
for its
current value
or written with
a new
value.
Note: Value changes are stored
in
RAM
till
rfid:cfg.write
is
used
to
store
the
value
in to
F
lash.
u
T
hese
three commands identify
the
delimiter characters
that
can display. Three characters may be divided up as
pr
e
and
/
or
post delimiters. The rfid:count.lead command identifies how many
of the
three characters
(
chr
.
1
..
chr
.
3)
displa
y
before
the
card data. For example,
if
rfid:count.lead
is
set
to
1,
only one character displays before
the
card
data
and
chr.2 and chr.3 can be set as post delimiters. Then rfid:count.trail can have a value
of
0
,
1,
or
2.
If rfid:count.lead
is
2,
chr
.
1
and chr.2 are set as leading delimiters. Then, only chr.3 can be set as a trailing
delimit
er
.
However they
are
used,
the
same character location cannot be used
for both
leading and trailing
delimit
er
.
Variable
Command
The var command displays
all
variables. The command
output
can be captured and played back
into
the
device. There must be a delay
of
several
milliseconds after
each character
or the
pcProx
serial
input
buffer
overflows.
rfid:beep.now
rfid:disp
.
f
ac.he
x=False
rfid:cfg=1
rfid:disp
.
f
ac.send=False
rfid:cfg.card.hipri=True
rfid:disp
.
f
ac.strip=T
rue
rfid:cfg.card.type=0xEF04 rfid:disp.hex.lower=
rfid:chr
.
1
rfid:disp.id.digits=0
rfid:chr
.
2
rfid:disp.id.hex=False
rfid:chr
.
3
rfid:op.beep=True
rfid:chr
.
c
ount.lead=0
rfid:op
.
c
ont=F
alse
rfid:chr
.
c
ount.
tr
ail=0
rfid:op.sdk=False
rfid:chr
.
eol=’\x0D’
rfid:out.led=255
rfid:chr
.
fac=’\x00’
rfid:time.hold=20
rfid:chr.gone.1=’\x00’ rfid:wieg.id.bits=16
rfid:chr.gone.2=’\x00’ rfid:wieg.inv.bits=True
rfid:cmd.echo=True rfid:wieg.qual=False
rfid:cmd.prompt=True rfid:wieg.qual.bits=26
rfid:dev.luid=0x0000 rfid:wieg.rev.bits=False
rfid:disp
.
6
4bit=F
alse
rfid:wieg.r
e
v
.b
yt
es=F
alse
rfid:disp
.
f
ac.
6
4bit=F
alse
rfid:wieg.strip
.lead.bits=1
rfid:disp
.
f
ac.digits=0
rfid:wieg.strip
.
tr
ail.bits=1