DCD (BW UED) - Hyperion Integrators

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Transcript DCD (BW UED) - Hyperion Integrators

Door Controller Device
Door Controller Device (DCD)
• The DCD is the “Remote Brains” of the system. It is the
controller device located at each access point within a
secured facility. Each DCD handles a single reader and can
control up to two on board relays.
• Up to 100 DCD’s can be connected to a single SCU.
2
DCD Spec’s
•
•
•
•
Voltage: 9-14 VDC (DCD will not operate below 9 VDC).
Current: 150 mA (worst case consumption, board only).
Data Storage: 24hr minimum clock and memory backup.
Output: 2 Single Pole Form “C” relays. Contacts rated for 2
AMPs @ a nominal 24 VDC.
• Tamper: The DCD comes with an integrated tamper switch.
• Alarm Inputs: 4 supervised alarm inputs, and 3 additional
non-supervised inputs.
• Operational Temperature: 14ºF to 104 ºF (-10 ºC to 40 ºC)
3
DCD Memory
• 10,000 Card Holders, Stored on-board.
• 2,000 All Events History, Stored on-board (FIFO).
• 200 Programmable Timezones.
– 4 Separate Time Intervals Each.
• 20 Programmable Holidays.
• 8 Programmable Vacation Periods.
• On-board Real Time Clock.
4
Addressing the DCD
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
S3
J6
J2
S2 and S3 are used for addressing the DCD within
the system. The valid range is between 00 and 99.
5
S2
DCD Jumper J1 Settings
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J6
J2
J1 Jumper removed for Marlok Key devices.
J1 Jumper installed for all other types of reader devices
6
DCD J2 Terminal Block Connections
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J6
J2
J2 Terminal Block is for
reader and REX wiring.
7
DCD J3 Terminal Block Connections
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J2
J6
Terminal Block J3 is used
for communications wiring
on the data trunk
8
DCD J4 Connector
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J2
J6
Connector J4 is used for programming the DCD in
the stand alone mode when used in conjunction with
the AP1 adapter and a laptop computer. This can
only be done with the Millenium DOS 1.4 Software
9
DCD J5 Terminal Block Connections
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J2
J6
Terminal Block J5 is used for input power,
relay 1, and relay 2 wiring connections.
10
DCD J6 Terminal Block Connections
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J2
J6
Terminal Block J6 is used
for alarm inputs.
11
DCD Firmware Revisions
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J6
J2
Firmware revisions are identified by the
"ISSUE XX" level found on the EPROM U8
12
Deleting Programmed Data on the DCD
J3
32
J4
U3
16
Labeled
EPROM
J5
J1
J6
J2
1. Remove all terminals from J3 and J5.
2. Short pins 16 and 32 on U3 or 5 seconds.
3. Reconnect all terminals on J3 and J5.
13
DCD Watchdog LED
J3
32
J4
U3
16
D1
Labeled
EPROM
J5
J1
J6
J2
LED D1
OFF
DCD does not have power.
SLOW FLASH
The DCD is operating, but communications is down.
FAST FLASH
The DCD is operating normally.
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DCD Trunk Communications
Inbound and
Outbound
Trunk Data
+TXR
1
-TXR
2
3
J3
4
5
32
J4
U3
16
D1
Labeled
EPROM
J5
J1
J6
J2
15
DCD Data Wiring
DCD
SCU
1
2
3
4
5
6
7
-D
CV
+D
CV
8
9
1
2
1 +T
X
2 -T R
XR
3 +
TX
4 -T R
XR
5 G
ND
3
4
5
1 +1
3
2 +1 .8 VD
3.
C
3 -13 8 VD
.8
C
4 -13 VDC
.8
5 G VDC
ND
1
2
3
10 -Tx
/R
11 +T x
1
2 3 4 5
4
5
6
x
12 G /Rx
N
7
D
8
9
10
16
XR XR XR XR
+T -T +T -T
Power Supply w/Line
Conditioner
+D
CV
-D
CV
DCD Power Connections
J3
32
J4
+13.8 VDC
U3
1
16
2
-13.8 VDC
D1
3
4
5
Labeled
EPROM
J5
6
J1
7
8
9
10
J6
J2
17
DCD Power and Data Wiring
DCD
SCU
1
2
3
4
5
6
7
-D
CV
+D
CV
8
9
1
2
1 +T
X
2 -T R
XR
3 +
TX
4 -T R
XR
5 G
ND
3
4
5
1 +1
3
2 +1 .8 VD
3.
C
3 -1 8 VD
3.8
C
4 -1 VD
3.8 C
5 G VD
ND C
1
2
3
10 -Tx
/R
11 +T x
1
2 3 4 5
4
5
6
x
12 G /Rx
N
7
D
8
9
10
18
XR XR XR XR
+T -T +T -T
Power Supply w/Line
Conditioner
+D
CV
-D
CV
DCD Relay with Main Power Supply
1 2 3
4
8 1
5
-D
C
V
V
+D
C
J4
J3
2
3
4
Relay 2
N
.O
.
C
om
m
N on
.C
.
N
.O
.
C
om
m
o
N
.C n
.
Relay 1
J5
5
6
7
8
9
10
Warning: MOV Surge
Suppression MUST be employed!
To Main PS1
Power Supply
Fail Safe Locking
Device
3
4
5
V
-D
C
V
J3
1 2
+D
C
J4
8 1
2
3
4
Relay 2
N
.O
.
C
om
m
N on
.C
.
N
.O
.
C
om
m
o
N
.C n
.
Relay 1
J5
5
To Main PS1
Power Supply
6
7
8
9
10
Warning: Diode Surge
Suppression MUST be employed!
Fail Secure
Locking Device
19
DCD Relay with Local Power Supply
1 2
3
-D
C
V
C
V
+D
J4
J3
4
8 1
5
2
3
4
Relay 2
N
.O
.
C
om
m
N on
.C
.
N
.O
.
C
om
m
o
N
.C n
.
Relay 1
J5
5
6
7
8
9
10
From Lock
Power Supply
Warning: MOV Surge
Suppression MUST be employed!
Fail Safe Locking
Device
J3
1 2
3 4
-D
C
V
C
V
+D
J4
5
8 1
2
3
4
Relay 2
N
.O
.
C
om
m
N on
.C
.
N
.O
.
C
om
m
o
N
.C n
.
Relay 1
J5
5
Warning: Diode Surge
Suppression MUST be employed!
6
7
8
9
10
From Lock
Power Supply
Fail Secure
Locking Device
20
DCD Reader Connection
1
+TXR
2
-TXR
3
4
5
1
+DCV (13.8 VDC)
2
3
-DCV
4
5
6
7
Jumper J1 must be installed for use with
Proximity Readers
J5
8
3
5
ta
0
C
6
7
8
G
2
VD
Da
ta
1
+5
4
Da
LE
D
10
1
ro
un
d
J2
9
9
10
Proximity Reader
+12 VDC or +5 VDC Operation
Verify Manufacturer Voltage Requirements
21
J6
Additional Reader Configurations
Are Found in the Appendix
DCD REX Connections
1
+DCV (13.8 VDC)
2
3
-DCV
4
5
6
7
J5
8
9
10
J2
J6
1
2
3
4
5
6
7
8
9
on
m
m C
Co V D
2
+1
N.O.
Contacts
Motion Sensor Request to Exit Device
22
10
DCD Alarm Connections
J1
8 1
2
3
4
5
6
7
8
N.O.
N.O.
N.O.
N.O.
N.C.
N.C.
N.C.
N.C.
1K
EOL
1K
EOL
1K
EOL
1K
EOL
Supervised EOL Inputs
Short or Open = Alarm Condition
0.0 VDC to 2.04 VDC is a Shorted Loop
2.12 VDC to 2.95 VDC is a Normal Loop
3.00 VDC to 5.00 VDC is an Open Loop
All loops have a 500 ms response time.
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9
10
11
12
In
pu
t7
In
pu
t6
In
pu
t5
In
pu
t4
In
pu
t3
J2
In
pu
t2
In
pu
t1
J6
13
14
N.C.
N.C.
N.C.
Available on the
Millenium Windows
Systems Only
Non-Supervised Alarm Input
Short = Normal Loop
Open = Alarm Condition
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DCD Tech Notes
• The inbound data trunk cable and the power cable should
have some form of identification like a piece of electrical
tape around the jacket to ensure that future trouble
shooters know which direction the power and data source is
feeding from.
• The inbound and outbound shield of the trunk data cable,
along with the reader shield (if it is shielded) should be
twisted together and fastened with an electrical crimp or
wire nut. The shield should not connect to any terminals of
the DCD PCB.
24
DCD Tech Notes
• Inbound and outbound data trunk connections should be
made on terminals 1 and 2 (respective of polarity) on the J3
connector. This will ensure that if the connector is removed
for troubleshooting, that all other boards down line are still
communicating.
• Since the 12 AWG power cable is difficult to install under the
terminals of the DCD, it is recommended that the inbound
and outbound cables be combined with an 18 AWG pigtail
which is wired to terminals 1 and 3 of the J5 connector.
• The device connected to the REX terminals must be a
Normally Open device. No EOL resistor is required.
25
DCD Tech Notes
• Only alarm inputs 1-4 are supervised with an EOL resistor.
These four inputs will allow both Normally Open and
Normally Closed devices to be wired to the same loop.
Inputs 5-7 are Normally Closed devices only, with no EOL
resistor required. EOL resistors are installed at the device,
not at the DCD. All inputs are factory defaulted in the
programming to be disabled.
• Alarm input 7 is the only input which can detect both a Door
Ajar and a Door Forced Open condition on the same loop.
This is the input that the door contact for an access point
should be wired to.
26
DCD Tech Notes
• All locking devices which are connected to the DCD relays
must have a surge protection device installed at the lock.
Diodes for Fail Secure Locks (watch polarity) and MOV’s for
Fail Safe Locks (no polarity).
• All DCD’s come as a packed product with an accessory kit
which includes: 4-1K EOL resistors, J1 jumper, tamper
switch extension spring, 2-Diodes, and 2-MOV’s for surge
suppression on the locking devices, .
• Connector J2, Terminal 4, delivers 5.0 VDC for reader
power. For those readers requiring more than 5.0 VDC, wire
them to Connector J5, Terminal 2.
• DCD’s are not sold with an enclosure, make you order them.
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DCD Terminal Summary Label
+TXR
1
-TXR
2
+TXR
3
-TXR
4
GND
5
AUX
COMM
J3
32
J4
+13.8 VDC
1
+13.8 VDC
2
-13.8 VDC
3
-13.8 VDC
4
Relay 1 N.O.
5
Relay 1 COM
6
Relay 1 N.C.
7
Relay 2 N.O.
Relay 2 COM
8
Relay 2 N.C.
10
U3
16
D1
Labeled
EPROM
J5
J1
9
J6
J2
6
7
8
LED OUT
V Solenoid
VLE
5.0 VDC PWR
REX Input
REX Common
Data 0
Clock
9
10
1
2
28
3
4
5
6
7
8
9 10 11 12 13 14 15
GND
Alm Common
Alm Input 7
Alm Common
Alm Input 6
5
Alm Common
Alm Input 5
Alm Common
Alm Input 4
Alm Common
Alm Input 3
Alm Common
Alm Input 2
4
Alm Common
3
Alm Input 1
2
GND
Data 1
1