Ademco RTU-K12 RFID Access Control User Manual 737434

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Document ID	737434
Application ID	b/ct82qauTuev0ADQoMDYA==
Document Description	User manual
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Document Type	User Manual
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Date Submitted	2006-12-12 00:00:00
Date Available	2006-12-12 00:00:00
Creation Date	2006-12-12 11:21:44
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Document Title	Microsoft Word - 737434.DOC
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Document Author:	Administrator

TK C12 (RTUK12)
WEEE/ RoHS Compliant
Directive 2002/95/EC
Installation Manual ver.1.1
TABLE OF CONTENTS
FCC NOTICE .............................................................................................. 3
Canadian Compliance Statement ........................................................ 3
Mounting Instructions .................................................................................. 4
Attaching the Terminal Support Plate.......................................................... 5
Channeling the Cables from the Bottom of the Box ............................. 6
Fixing and cable breakaway tab.................................................................. 7
Connectors and Jumpers ............................................................................ 8
Power .......................................................................................................... 9
NET ........................................................................................................... 10
LONWORKS Data Cables................................................................ 10
INPUTs...................................................................................................... 12
Digital INPUTs.................................................................................... 13
Supervised INPUTs............................................................................ 14
Power OUTs.............................................................................................. 15
Resistive load..................................................................................... 16
Inductive load ..................................................................................... 16
Inductive load with external Power supply ......................................... 17
External relays ................................................................................... 18
Assembling the Terminal Closure Guide ................................................... 19
Closing the Terminal (Wall-Mounted Assembly) ................................ 20
Closing the Terminal (Turnstile-Mounted Assembly) ......................... 21
Identification via the Service Pin ............................................................... 22
Identification via Bar Code ........................................................................ 23
TemaKey TK C12 (RTU-K12 code 1500164xx) ....................................... 24
Optional Parts .................................................................................... 26
Recycling................................................................................................... 27
Page 2
FCC NOTICE
FCC NOTICE
NOTE: This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to Part 15 of FCC Rules. These limits
are designed to provide reasonable protection against harmful interference in
a residential installation. This equipment generates, uses and can radiate
radio frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications.
However, these is no guarantee that interference will not occur in a particular
installation.
If this equipment does cause harmful interference to radio or television
reception, which can be determined by tuning the equipment off and on, the
user is encouraged to try to correct the interference by one or more the
following measures:
-----
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
Caution: any modification or change not expressly approved by the party
responsible for compliance could void the user’s authority to operate the
equipment.
Canadian Compliance Statement
This Class B Digital apparatus meets all the requirements of the Canadian
Interference-Causing Equipment Regulations.
Cet appareil numerique de la classe B respecte les exigences du Reglement
sur le material broilleur du Canada.
FCC ID: HS9-RTU-K12
T h is d e vic e co m p lie s w it h P a r t 15 o f th e F C C R u les .
O p e ra tio n is su b jec t t o th e f o llo w in g t w o c o n d it io n s :
( 1 ) t h is d ev ic e m a y n o t ca u se h a rm f u l in t e r fe r en c e , a n d
( 2 ) t h is d ev ic e m u st a c ce p t an y in t e r fe re n c e r ec e iv e d ,
in c lu d in g in t e rf e r en c e th a t m a y ca u se u n d e s ir ed o p era tio n .
FCC NOTICE
Page 3
PRELIMINARY OPERATIONS
Mounting Instructions
120 cm
The cables are attached to an encased box. Make sure that you place the
box at a height of 120cm from the floor (see Figure 1).
tube
cables
floor
Figure 1. Space Requirements for Mounting
Page 4
Mounting Instructions
Attaching the Terminal Support Plate
To attach the terminal support plate, follow these steps:
1. Drill two holes into the wall to accommodate the plastic anchors that hold
up the support plate (you must use M4 screws).
2. Make sure that the box attached to the wall is aligned with the niche on the
lower part of the support plate
3. Use a ∅ 4mm slotted screwdriver.
Anchor
Cables
entrance
Anchor
Figure 2. Attaching the Support Plate
Attaching the Terminal Support Plate
Page 5
Channeling the Cables from the Bottom of the Box
As an alternative, you can channel the cables so that they issue from the
bottom of the box (see Figure 3). This alternative procedure consists of the
following steps:
1. Drill a hole in the breakaway tab and apply a cable clamp with a clutch for
the cable tube.
2. Remove the cable clamps from the rear side and apply the stopper.
Anchor
PG9 cable
clamp
Anchor
Multi-pole
cable
(15 poles)
Figure 3. Channeling the Cables from the Bottom of the Box
Page 6
Attaching the Terminal Support Plate
INSTALLATION
Fixing and cable breakaway tab
Insert and fasten the power, data, and I/O cables in the connector (see Figure
4 and Figure 5). If there is also a small grounding cable, use a cable clamp to
connect it to the screw supporting the card.
Anchor
Breakaway tab
for cables exit
from back
Breakaway tab
for cables exit
from bottom
Anchor
Figure 4. Fixing and Breakaway tab
Fixing and cable breakaway tab
Page 7
Connectors and Jumpers
J2
IN 1+
IN 1- (GND)
IN 2+
IN 2- (GND)
J1
J4
OUT2 OUT2+ (12V)
OUT1OUT1+ (12V)
+12V
ground
NET-A
NET-B
J3
Figure 5. Connectors
JP4 Î Buzzer
ON/OFF
BUZZER
LCD contrast
regulation Trimmer
JP3, 5 Î
Outs NC/NO
JP2 Î Inputs Mode
JP1 Î Close (RFU)
Tamper
Figure 6: Jumpers
Page 8
Connectors and Jumpers
Power
The RTU is powered at low voltage (12VDC 150mA) by a battery-operated
power supply module (RTU-Qxx). In order to determine the correct size for
power cables, refer to the table below. Max voltage cable drop = 1,0VDC for
assure that in battery power working, when battery min voltage is 10,5V the
min RTU power supply Î 9,5V (min RTU voltage).
Type of cable
Length (m) in relation to effective load
AWG
mm2
ohm/Km 150 [mA] 300 [mA] 600 [mA] 1,2 [A]
2,4 [A]
12
3,3
5,7
585
292
117
58
29
14
8,8
379
189
76
38
19
16
1,3
14
238
119
48
24
12
18
0,9
21
159
79
32
16
20
0,6
34
98
49
20
10
22
0,35
52
64
32
13
24
0,2
85
39
20
+12V
Ground
When the cables go out-of-doors is mandatory to use shielded cables. The
cables’ shielding must be connected to the ground connector.
For internal wiring without shielded cables is recommended an electrical
environment where the cables are well separated, even at short runs,
especially to the power cables or external cables which can be essentially
subjected to interference or lighting.
Power
Page 9
NET
NET A/B (no polarity)
LONWORKS Data Cables
• The LONWORKS1 data cable must be twisted-pair.
• In a free-topology configuration, the sum total of the sections must not
exceed 500m.
• In a bus configuration, the sum total of the sections must not exceed
2700m.
• In a free-topology configuration, activate the 50ohm terminator by placing
the appropriate jumper on the FTT10A plug-in of the CTU-PLG06 board
inside the TemaServer.
• In a bus configuration, place two terminators (with resistance values of
100ohm 1% ½W) at the two ends of the bus.
LONWORKS® is a trademark of Echelon Corporation
Page 10
NET
• Check that the length of the LONWORKS data cable corresponds to the
norms indicated in Table 1.
AWG
12
14
16
18
20
22
24
Type of cable
mm2
Ohm/Km
3,3
5,7
8,8
1,3
14
0,9
21
0,6
34
0,35
52
0,2
85
50nF/Km
2676
2153
1707
1394
1096
886
693
Length [m] in relation to cable capacity
100nF/Km 200nF/Km 500nF/Km
1uF/Km
1892
1338
846
598
1523
1077
681
482
1207
854
540
382
986
697
441
312
775
548
346
245
626
443
280
198
490
346
219
155
Table 1. Length/Capacity of LONWORKS Data Cables (m)
• The FTT10A Echelon v1.2 User Guide recommends the cables indicated
in Table 2.
Producer and Model
AWG
Belden 85102
Belden 8471
Level IV (twisted-pair,
typically solid and
unshielded)
JY (St) 2x2x0.8 (4-wire
helical twist, solid
shielded)
TIA Cat5
16
16
22
2700
2700
1400
Connection in free
topology –maximum
node-node length
max. [m]
500
400
400
20
900
320
500
900
250
450
Connection to
bus -maximum
total length [m]
Connection in free
topology –maximum
total wire length. [m]
500
500
500
Table 2. Recommended LONWORKS Cables
NET
Page 11
INPUTs
It is possible manage digital inputs or supervised inputs.
Usually the IN1 is dedicated to the Door contact
Usually the IN2 is dedicated to the push button (request to exit).
However the inputs can be also used as general purpose inputs
Mode select by JP2
• JP2 Î
Close Î Supervised inputs (default)
Supervised inputs 4 status: normal, alarm, cut, short
•
Open Î Digital inputs
Digital inputs status: open or Close
JP2 Î
JP2
Figure 7: JP2 position
Page 12
INPUTs
Digital INPUTs
The typical connection for digital dry contacts is shown in the next figure.
Normally closed (door)
Dry contact
input 1+
input 1input 2+
input 2-
Push Button
Normally open (Exit)
+12V
Ground
Figure 8. Clean Contacts Connection Example
When the cables go out-of-doors it is mandatory to use shielded cables. The
cables’ shielding must be connected to the ground connector.
For internal wiring without shielded cables is recommended an electrical
environment where the cables are well separated, even at short runs,
especially to the power cables or external cables which can be essentially
subjected to interference or lighting.
Use a twisted-pair cable for the contact cables. Make sure that the cables
correspond in size to the norms indicated in.
Max resistance = 25 Ohm
AWG
22
24
mm2
ohm/Km
0,35
52
0,2
85
[m]
240
147
Table 3. Length of Contact Cables
INPUTs
Page 13
Supervised INPUTs
The typical connection for supervised dry contacts is shown in the next figure.
Put the resistors close to the dry contact
Dry contacts
Normally closed
Door
White
yellow
White
yellow
input 1+
input 1input 2+
input 2-
Normally open (Exit)
Push Button
+12V
Ground
Figure 9. Supervised input connection
Yellow resistor: 1210 Ohm 1%
White resistor: 392 Ohm 1%
Close contact resistance: 296 Ohm
Open contact resistance: 1210 Ohm
When the cables go out-of-doors is mandatory to use shielded cables. The
cables’ shielding must be connected to the ground connector.
For internal wiring without shielded cables it is recommended an electrical
environment where the cables are well separated, even at short runs,
especially to the power cables or external cables which can be essentially
subjected to interference or lighting.
Use a twisted-pair cable for the contact cables. Make sure that the cables
correspond in size to the norms indicated in.
Max resistance = 25 Ohm
AWG
22
24
mm2
ohm/Km
0,35
52
0,2
85
[m]
240
147
Table 4. Length of Contact Cables
Page 14
INPUTs
Power OUTs
It is possible manage 2 digital outputs NC (Normally Close) or NO (Normally
Open)
Usually the OUT1 is dedicated to the Door Electrolock
Usually the OUT2 is dedicated to the Busy lamp.
However the Outputs can be also used as general purpose outputs
Mode NC/NO select by JP 3 and JP4
JP3 Î 1-2 OUT 1 NO (default)
2-3 OUT 1 NC
JP5 Î 1-2 OUT 2 NO (default)
2-3 OUT 2 NC
JP5 1-2
JP3 1-2
Figure 10: JP3 and JP5 position
Internally, the output lines are provided with Power Mosfet that can drive to
ground:
1,2A 30V continuous
5A 30V (0,5 sec) peak current for inductive loads
Power OUTs
Page 15
When the cables go out-of-doors is mandatory to use shielded cables. The
cables’ shielding must be connected to the respective ground connectors
(GND).
For internal wiring without shielded cables is recommended an electrical
environment where the cables are well separated, even at short runs,
especially to the power cables or external cables which can be essentially
subjected to interference or lighting.
Resistive load
OUT2+12V
OUT1+12V
max 1,2A
max 1,2A
12VDC / GND
Figure 11: Connecting to resistive loads
Inductive load
1N4004
OUT2-
+12V
max 1,2A (5A impulse)
1N4004
OUT1-
+12V
max 1,2A (5A impulse)
12VDC / GND
Figure 12: Connecting to inductive loads
Page 16
Power OUTs
Inductive load with external Power supply
1N4004
OUT2-
1N4004
OUT1-
max 1,2A (5A impulse)
Isolated Power Supply
10 to 30VDC
GND
DC OUT
AC IN
12VDC / GND
Figure 13: Connecting to inductive loads with an external isolated power
supply
Note for inductive loads
• In this case is mandatory use the 1N4004 diodes as in figure. Two (2)
Diodes are included in the product
• The external power supply has to be isolated
Power OUTs
Page 17
External relays
When the load exceeds the max internal Mosfet current it is possible to
use external relays
12V relay
1N4004
OUT2
12V relay
1N4004
OUT1
12VDC / GND
Figure 14. Relays OUT
Notes:
• Use 12VDC relay - max coil current = 100mA each.
In this case is mandatory use the 1N4004 diodes as in figure.
Page 18
Power OUTs
Assembling the Terminal Closure Guide
To assemble the terminal closure guide, follow these steps:
1. Use the 4 special screws to assemble and fasten the terminal closure
guide.
2. Insert the nut and the special screw into the corresponding niche on the
guide (see Figure 15).
nut
screw head
Figure 15. Mounting the Terminal Closure Guide (1)
Make sure that the fitting is correctly positioned, and then insert the flat cable
from the front casing into the connector (see Figure 16).
O-ring
Special
screws
Closure
Guide
Flat cable
NUT
Special
starshaped
screw
Figure 16. Mounting the Terminal Closure Guide (2)
Assembling the Terminal Closure Guide
Page 19
Closing the Terminal (Wall-Mounted Assembly)
To close a wall-mounted terminal, follow these steps:
1. Unscrew the special closure screw by turning it counterclockwise so that
the terminal closure remains fully open (in the direction of the wedge).
2. Insert the upper shell as indicated in Figure 17.
3. Fasten the special closure screw by turning it clockwise and pushing down
on the shell, so that the fitting is completely secure.
4. Tighten the screw.
Figure 17. Closing the Terminal (Wall-Mounted Assembly)
Page 20
Assembling the Terminal Closure Guide
Closing the Terminal (Turnstile-Mounted Assembly)
To close a turnstile-mounted terminal, follow these steps:
1. Unscrew the special closure screw by turning it counterclockwise so that
the terminal closure remains fully open (in the direction of the wedge).
2. Insert the upper shell as indicated in Figure 18.
3. Fasten the special closure screw by turning it clockwise and pushing down
on the shell, so that the fitting is completely secure.
4. Tighten the screw.
Figure 18. Closing the Terminal (Turnstile-Mounted Assembly)
Assembling the Terminal Closure Guide
Page 21
ACTIVATION
Identification via the Service Pin
To identify the node, you can activate the service pin by means of a relay
reed located inside the unit (see the below figure). This procedure consists of
the following steps:
1. Position a small magnet as illustrated to activate the service pin. This
signal is linked to the yellow central service LED, which flashes throughout
the node configuration procedure.
2. The TemaServer, in response to the service pin, sends a wink command
that makes yellow LED flash three times. This allows you to verify that
communication to and from the TemaServer is working.
3. Check that the service LED remains off after you have completed this
operation.
Magnet
service pin
(reed)
service
LED
Figure 19. Using a Magnet to Activate the Service Pin
Page 22
Identification via the Service Pin
Identification via Bar Code
The components enclosed in the packaging include a bar code label. The
person responsible for installing the terminal must apply this label to the
corresponding identification form, and indicate the location of the terminal in
the appropriate box (see example in Table 5).
Description of location
Office entrance area, first floor staircase E
Description of TemaServer
Panel 2 entrance area, first floor
– staircase E
TKC01 (RTU-K01)
TKC02 (RTU-K02)
TKC03 (RTU-K03)
TKC12 (RTU-K12)
NID label
Table 5. Example of Completed Identification Form
Identification via Bar Code
Page 23
TECHNICAL SPECIFICATIONS
TemaKey TK C12 (RTU-K12 code 1500164xx)
Parameter
Value
DC power supply
Weight
Size
Protection level
Operational temperature
Storage temperature
Storage relative
humidity
Display
Acustic signal
LED
12VDC±20% 150mA (2W)
0.4 kg
72x160x75 mm
IP55
-20 ÷ 60 °C
-20 ÷ 70 °C
0 ÷ 90 % without condensation
Keyboard
Proxy receiver
Alphanumeric 16x2 – led backlight
1 Buzzer
1 led with 3 color:
- RED
- Green
- Yellow (Lon service Led)
4 x 4 keypad with soft epoxy / UL treatment on
keys for harsh environment
13,56MHz for 14443A / B cards
Reading range: depending on technology of
card.
Typical 7 cm for MIFARE2 full ISO14443A
Typical 4 cm for STM ISO14443B
MIFARE® is a registered trademark of Philips Electronics N.V.
Page 24
TemaKey TK C12 (RTU-K12 code 1500164xx)
Inputs
2 supervised or digital inputs.
Mode select by JP2
JP2 = Close Î Supervised inputs
JP2 = Open Î Digital inputs
• Supervised inputs with 4 status:
normal, alarm, cut, short
• Digital inputs with status: open or Close
Current
Outputs
0 to 10mA for each input
(internal reference 5Vdc)
Voltage
+14V max.
0V min
Number
Type
Power Open drain (MOSFET)
Current
1,2A continuous
5A (0,5sec) impulsive
Voltage
10V...+14V (internal Power
supply)
Voltage (absolute max)
10V...+30V (from
external Power supply).
Current
1,2A [5A / 0,5sec peak max –
inductive
load]
Normality
NO or NC via Jumper setting
JP3 =
1-2 OUT 1 NO
2-3 OUT 1 NC
JP5 =
1-2 OUT 2 NO
2-3 OUT 2 NC
Wire length connection: it depends on cable
diameter, load current sink and load min
power supply
On state resistance = typical 20 mOhm
Load 1A = 0.02 V
TemaKey TK C12 (RTU-K12 code 1500164xx)
Page 25
JP4 Î normally close
Close = Buzzer enabled
Open = Buzzer disabled
JP1 Î normaly close (reserved for future use)
JP6 Î normaly open (reserved for future use)
®3
LONWORKS connection Unshielded twisted-pair cable in free topology
(transceiver FTT10A, 78Kbps)
Directive EMC 89/336/EEC, 92/31/EEC,
Compliance with
Directive Low Voltage 72/23/EEC, 93/68/EEC:
Regulations
Other Jumpers
EN60950, EN55024, EN55022, EN 300 330
Environment friendly
RoHS / WEEE compliant device
Directives 2002/95/EC 2002/96/EC
Optional Parts
TORX screwdriver
TX10
code 1500108AA
LONWORKS® is a trademark of Echelon Corporation
Page 26
TemaKey TK C12 (RTU-K12 code 1500164xx)
Recycling
In application of directive 2002/96/EC regarding waste electrical and electronic apparatus, effective beginning 13
August 2005, Honeywell commits, when requested by the customer, to the collection, treatment, recovery, and
disposal of the apparatus produced.
Customers in European Union are advised to dispose this product, at the end of its useful life, as per applicable local
laws, regulations and procedures
Recycling
Page 27

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Create Date                     : 2006:12:12 11:21:44-05:00
Modify Date                     : 2006:12:12 11:21:44-05:00
Page Count                      : 27
Creation Date                   : 2006:12:12 16:21:44Z
Mod Date                        : 2006:12:12 16:21:44Z
Producer                        : Acrobat Distiller 5.0.5 (Windows)
Author                          : Administrator
Metadata Date                   : 2006:12:12 16:21:44Z
Creator                         : Administrator
Title                           : Microsoft Word - 737434.DOC

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