7
of 8
Optional Quick Connect
Guide
(Sold Separately)
1.
CONNECT the Lock Side Interface Cable to the
optional 6 ft Door Interface Cable (CBL6-QC12).
NOTE:
SEE Server Cabinet Wiring Example,
Diagram 12
.
2.
CONNECT the Door Interface Cable to
the additional optional 12 ft System Side
Interface Cable (CBL12-QC12).
NOTE:
18 ft TOTAL wire run when BOTH
optional interface cables are utilized.
3.
RUN the 12 ft System Side Interface
Cable, as required.
4.
ATTACH the included 4-Pin and 8-Pin Female Molex
Connectors to the bare wire side of the System
Side Interface Cable to extend the interface cable
for installations that require longer than 18 ft.
System Side Connections
NOTE:
Installation wiring for the product and
wiring methods shall be in accordance with the
National Electrical Code (NEC), ANSI/NFPA 70.
5.
CONNECT the bare wires as required to
the 3rd party wiring as needed to connect
to Electronic Access Control System.
6.
ENSURE the following power cabling
guidelines are followed:
WIRE AWG
SUPPLY VOLTAGE
MAX WIRE RUN (FT)*
20 AWG
12
758
24
5305
22 AWG
12
477
24
3336
24 AWG
12
300
24
2098
*Round trip loss. V = 2*I*R*xft → xft = V / (2*I*R)
Round Trip Loss
Application Notes
1.
Data 0 and Data 1 wires for Wiegand may be reused
for OSDP. However, standard Wiegand cable may
not meet RS485 twisted pair recommendations for
maximum data transmission speed and distance.
2.
For OSDP cable lengths greater than 200 ft
[61 m] or EMI interference, install 120
Ohm termination resistor jumper on
the KS210 as shown in
Diagram 7
.
Additional OSDP
Information
Available at:
assaabloyesh.com/en/tech-info/digital-asset-search/
1.
Understanding OSDP Implementations
(HID/Mercury FAQ)
2.
How OSDP Is Revolutionizing Access
Control Systems (Webinar)
3.
Why Upgrade to OSDP (Infographic)
4.
Demystifying OSDP (eBook)
Testing & Commissioning
PRIOR to applying power.
1.
VERIFY that the SFIC (Small Format
Interchangeable Core) cylinder has been
installed. If so, verify mechanical actuation of
locking cam allowing for emergency override.
2.
VERIFY that the handle has been returned to the
secure/locked state; ensure the door is closed
with the locking cam engaging the cabinet
and the handle full seated in the lock body.
3.
APPLY power to the system to verify
electronic functionality.
4.
VERIFY that the LED is illuminated
with the correct RED or GREEN color
displaying while in the secure state.
5.
PRESENT a known/valid credential to the RFID target
on the face of reader portion (as shown) of the lock
to confirm acknowledgment of access granted.
»
VERIFY that you hear an audible beep when
a credential is presented to the reader.
»
VERIFY that you see the visual LED
indicator temporarily change state.
»
VERIFY that you hear the motor actuate
from a lock to unlock state.
6.
LIFT the handle and ROTATE in the direction
of the door hinges to open the cabinet.
»
VERIFY that the Tamper/Locked State/DPS
has changed to a non-secure state.
7.
RETURN the handle to the secure/locked
state; ensure the door is closed with the
locking cam engaging the cabinet and the
handle full seated in the lock body.
»
VERIFY that the Tamper/Locked State/
DPS has returned to the secure state.
