Honeywell SC105 - Install Guide - Dated 2014 Rev. E



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Honeywell SC105
Seismic Vibration Sensor for Noisy Environments
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SC105 Mini
-Seismic Vibration Detector

Installation
Guide


1. General Information

SC105 Mini
-Seismic Vibration Detector is a seismic or structural vibration detector designed to detect selected vibrations from
burglary or
intrusion attempt
s on
mini
-ATMs
, Containers, Filing Cabinets and so on
. The detector consists of a sensor to
convert mechanical vibrations to electrical signals, a signal conditioning block, signal analysis and alarm criteria blocks,
output
alarm circuits
, tamper protection,
and a switching block
for
selecting
detector
settings
, all in a miniature metal housing.

This Installation Guide provides general information about
the
mounting and configur
ing
of SC105 Mini
-Seismic Vibration
Detector
. For more details,
such
as
planning detector locations
, pl ease refer to
“SC105 Mini
-Seismic Vibration Detector
Planning and Installation Guide

.
2. Applications

SC105 Mini
-Seismic Vibration Detector
is designed to detect
any known attack tool
on:
Mini -ATM
s/Filing Cabinets
/Gate
s/Containers
/Chests
/Vending machines
/Ticket machines

For UL and c
UL
us
installations,
Notes:
1. A detector shall be on each modular wall panel that is not continuously welded.

2. For coverage of surfaces over corners, the recommended spacing is reduced by 25 perc
ent.

3. For safes, at least one detector is to be mounted on the door and at least one detector is to be mounted on the body. Must be
installed inside the safe. May be installed outside of safe if installed with a high security cable i.e.Belden 8444 or Alpha
1174C.

4. For a complete safe installation, connect to a high security cable for installation inside the safe.

5. Attack tools include diamond-
head drills, diamond disk and cutting torch.

6. The units are intended to be connected to a compatible Listed burglar alar
m control unit or power supply that provides 4 hours of
standby power and 72 hour standby power for safe applications.

7. Test annually by installer.

8. For indoor use only (0 to 49
°C
, 93%RH).

9. For UL and c
UL
us installations, the Noise indicator is set to “Off”.

2.1
Application Settings

Sensitivity Setting
s
Material

Detection Radius

Applications

Noise Level

G
high

Steel

3.0
m
Mini -ATM
s (grade 3,4)
and
Containers

Insignificant noise level

Concrete
K350

2.0
m
G
normal

Steel

1.5
m
Mini -ATM
s (grade 1,2)
and Chests

Moderate noise level

Concrete
K350

1.0
m
G
low

Steel

1.0
m
Filing Cabinets, Gates

Considerable noise level

G
noisy

Sheet Steel

<3.0
m
Vending machines, Ticket machines

Heavy noise level

Note
s:

1. Sensitivity settings (
G
high
, G
normal
, G
low
, G
noisy
) are d
efined
in “
4.2.1
DIP
Switch
Settings
”.
2. The parameters in the table above are only
for reference, and
they may vary according to the quality of the material.

3. The detection range will be reduced if cracks and joints exist in the material.

4. The products are only UL and c
UL
us Listed for the following surfaces and detection radius:

Steel at 0.
31
in (
8mm) thick = 9.8ft (3.0m)


K350 Concrete at 1.31ft (400mm) = 6.6 ft (2.0m)


K350 Concrete at 0.66ft (200mm) = 6.6 ft (2.0m)

3. Mounting
the Detector

SC105 Mini
-Seismic V
ibration Detector
can be mounted on any solid
surface
, of which
the most common
surfaces
are: Ste
el,
Stainless Steel, Hardened Steel
and
Concrete
.
3.1 Opening the Detector

Before mounting the detector,
separate the detector cover from the detector base
fir st (by loosing the top screw, see
Figure 1
).

Figure 1 Open the detector


Detector Cover Detector Base

Figure 2 Drill Plan

Note Please remove the drill
:
plan after mounting holes
have been drilled

3.2
Mounting
on
Steel

When mounting the
detector
on a
flat and
smooth
steel
surface
, both Drill Plan (see
Figure 2
) and Detector Base can be used
to mark
the
mounting holes.

1. Remove and clean
paint
from the mounting area.

2. Attach the detector base or drill plan on the mounting area, then mark the outline a
nd
center punch
detector mounting
holes A, B and
Test Transmitter SC113

mounting hole C
.

A
B

Notes:



Detector base cannot be used to mark Test
Transmitter SC113
mounting hole C.



Skip marking hole C if
Test Transmitter SC113 is

not
used.

C
A
B

3. Drill detector mounting holes A, B (
Ø 3.
3 mm
and
minimum
8 mm deep
), and then thread the two holes
with
a M4 Tap (6
mm at least).

4. Drill
Test Transmitter SC113
mounting hole C (
Ø 3.
3
mm
and
minimum
8 mm deep
), and then thread the
hole with
a M4 Tap (6
mm at least).

5. Remove dill plan and all of the burrs.

Notes:



Cool the tools with oil while drilling and threading.



Skip step 4 if
Test Transmitter SC113 is not used
.
6. Attach
Test Transmitter SC113
on the mounting area

(at C) and then use the
M4
×
8
mm screw to fix it.

Note:
Skip this step if Test Transmitter SC113 is not used
.

C

7. Attach the detector base on the steel surface and then
use the two M4
×
8
mm
screws provided to
fix it.


8. Wire
and
configure
the detector (see
“4. Wirings and
Settings

), and then use the top screw to fix the detector
cover
properly
.


3.3
Mounting
on Stainless
Steel
or Hardened Steel

When mounting on
stainless
steel
or hardened steel,
Mounting P
late
SC110
(
UPSIDE DOWN
, see
Figure 4
)
must be used
and
should be welded on the
mounting surface first.

Figure 3 Mounting Plate
SC110
UPSIDE

F
G
C
D
E
A
B
H
J
I

This orientation is used for mounti
ng
on
concrete
.

A
,
B
– Detector SC105
mounting holes

C
,
D
, – Test Transmitter SC113
locating holes

E
– Mounting Plate SC110 Mounting hole

F
,
G
– W elding Slots

H
,
I
,
J
– Countersink screw hole (
compatible with
other mounting plates
)

Figure
4 Mounting Plate
SC110
UPSIDE DOWN
F
G
C
D
E
A
B
H
J
I

This orientation is used for mounting on
stainless steel
or
hardened steel
.

1. Remove paint from the mounting area

(especially
welding area)
.
2. Attach
Mounting Plate SC110
on the
mounting
area, and then mar
k the outline.


3. Fix
Mounting Plate SC110
into the outline marked and ensure it
cannot
move, and then
along
the

INSIDE
of the welding slots
weld
Mounting Plate SC110
on the mounting surface.

Note:
The welding must be done al
ong
the
INSIDE
of the welding slots
,
otherwise
Mounting Plate SC110
can be deformed.



4. Tap off slag and remove weld spatter
and
make sure the whole
mounting surface is still flat
.
5. Attach
Test Transmitter SC113
on
Mounting
Plate SC110
(at C) and then use the M4
×
8
mm screw to fix it.

Note:
Skip this step if Test Transmitter SC113 is not used
.
C


6. Attach the detector base on
Mounting Plate
SC110
and then use the two M4
×
8
mm
screws
provided to
fi x it.


7. Wire
and
configure
the detector (see
“4. Wirings and
Settings

), and then use the top screw to fix the detector cover

properly
.


3.4
Mounting
on
Concrete

When mounting on Concrete
,
Mounting Plate
SC110
(
UPSIDE
,
see
Figure3
) must be used.

Note:
Mounting
directly on a bare or plastered concrete surface may result in low
detection sensitivity
and
cause damage to the
detec
tor
.
1. Attach
Mounting Plate SC110
on the mounting area and
then ma
rk the outline and center hole E.

2. Drill
the center
hole
E of
Ø 10
mm
and
minimum
65
mm
deep
, and then remove
all drill residuals
and plaster.


E


3. Insert
M6
anchor
into
hole
E and make sure the end
of the
anchor
can
reach
but
not protrude the
concrete
surface.

Note:
Use a longer M6 anchor
or a distance sleeve between
Mounting Plate SC110
and
the
anchor
if the
M6
anchor
cannot

reach
the solid concrete.

4. Attach
Mounting Plate SC110
into the outline marked,
and then through the ce
nter hole insert
M6
×
50
mm
screw
into M6
anchor
in the wall.

5. Tighten M6
×
50 mm s
crew
but do not fix
Mounting
Plate SC110
on the concrete surface, and make sure
Mounting Plate SC110
does not expand
either.

Note:
Mounting Plate SC110
can be rotated
here
.



Note:
Skip step
6 to step 11
if Test Transmitter SC113 is not
used.

6. Rotate
Mounting Plate SC110
clockwise 180
̊
and mark
hole C.

7. Rotate

Mounting Plate SC110
anticlockwise
until the
marked hole C can be seen through hole D.

Note:
Tighten the center screw slightly to stabilize Mounting Plate
SC110
at
this
step.

8. Through
hole
D drill a hole of
Ø 5.5 mm
and minimum 25

mm deep
and then remove
all residuals
.


180
°
Clockwise
C
D
D
D
C
C
Anticlockwise

9. Release and turn
Mounting Plate SC110
to the original
orientation
(see the figure below).

10.
Insert M4 anchor into the drilled hole and make sure
the end of the
anchor
cannot
protrude t
he
concrete
surface
.
11.
Attach
Test Transmitter SC113
on M4 anchor, and
then use M4
×
14
mm screw to fix it
permanently
.






12.
Tighten
M6
×
50
mm s
crew
(and
knock on the screw head with a hammer
when needed)
until t
he
mounting pl
ate
is


24-hour surveillance of
mini
-ATM
s, Filing Cabinets and so on



Flat frequency response sensor for genuine signal analys
is


DIP switch
sensitivity set
tings



Noise sensitivity settings using build
-in diagnostic tool



Integrated
EOL
resistors



High detection capability



Low current consumption



Standard drill sheet protection



Miniature metal housing
– easy to fit in restricted spaces

Detector mounting hole
A

Detector mounting hole
B

Test Transmitter SC113

mo unting hole
C

Note:

The
drill plan
shall be
removed
after
all of the
mounting holes have
been
drilled
.
Note:
The top screw is
only
used to
fix the
cover
, so do not
tighten it too much


fixed on the concrete surface and
cannot
be
rotat
ed .
13.
Attach the detector base on
Mounting Plate SC110
and
then u
se the two M4
×
8
mm
screws provided to
fi x it.


14.
Wire
and
configure
the detector (see
“4. Wirings and
Set
tings

), and then use the top screw to fix the
detector cover
properly
.


4. Wirings
and Settings

Wirings and settings are configured on detector base.
All function modules on the detector base are shown as below.

Figure 5 De
tector Base



4.1
Wirings

4.1.1
Terminal Block Wiring

The wirings should be connected to the terminal block first, and then should be connected to the panel.

Figure 6 Terminal Block Wiring


4.1.2 Panel Wir
ing

According to the
different
terminal block wirings, there are two ways to connect the detector to the panel.

Alarm and tamper configured to one loop

Alarm and tamper configured to two loops

RTI
RSI
S/OC
T2
T1
C
NC
V+
0V
Z1
COM
Tamper
RT
Alarm
J20
RA

Connected to a zone confi
gured as Dua l
-End-
of-Line

RTI
RSI
S/OC
T2
T1
C
NC
V+
0V
Tamper
RT
Alarm
J20
Z1
COM
Z2

Connected to a zone configured as Single-
End
-of-Line

4.2 Settings

4.2.1
DIP Switch Settings


Sensitivity Settings

Application Settings

Noise LED


1

2


3


4


G
high

off

off

High sensitivity
setting

off

Delay

off

Noise indicator OFF

G
normal

on

off

Normal sensitivity setting

on

No Delay

on

Noise indicator ON

G
low

off

on

Low sensitivity setting





G
noisy

on

on

Noisy environment sensitivity setting





* Factory default settings are shown in
grey.

Notes
:

1. Any change
of DIP
switch 3
will cause an
alarm .

2. Any c
hange
of DIP
switch 3
must
be followed by a power off sequence of 5 seconds.

3. Application setting with DIP switch 3 in ON position gives normal 100% response time to alarm. In applications w
ith intermittent
noise a delayed 200% response to alarm is possible by setting DIP switch 3 in OFF position.

Example
: A Lobby ATM with extensive
internal or external intermittent noise and the sensitivity is needed to fully protect the ATM.

4. The Noise LED w
ill light
or
flash
intensively
if the noise level (
external or internal
) is too high. Reduce the sensitivity with
DIP switch
1 and 2 until the Noise LED turns off.

5. When scratching the surface of the protected object
lightly
, the
Noise LED will
turn on as a
confirmation of detection.

6. In case of alarm, t
he
Noise LED will
flash
with 5 Hz
, appx
. 2
.5 seconds.

7. Turn
ing
off the N
oise LED
by DIP
switch 4
will
reduce
current consumption.

4.2.2
EOL
Jumper
Settings

Jumper

Position

EOL Value

TAMPER

(RT)

1
-
2

1
.0
K

2
-
3

2.2

K

4
-
5

4.7

K

5
-
6

5.6

K

ALARM

(RA)

1
-
2

1
.0
K

2-3
2.2
K
4
-
5

4.7

K

5
-
6

5.6

K

* Factory default settings are shown in grey.

Note
s:

1. Refer to
Control Panel manual
for
proper EOL selection.

2. For
each block
, o
nly one
EOL value can be set.

3. Other EOL resis
tor values can be used by removing all jumpers on the EOL jumper field and wire new resistors directly on the
terminal block.

4.2.3
J19/J20 Settings


No Jumper

Jumper

J19

Terminal 8 =
N
ot
U
sed

Terminal 8 = Alarm O/C
O
utput

J20

Connect SC111/SC112 to th
e loop

Normal Close

* Factory default settings are shown in grey.


4.2.4 J1
Remote Test Settings

* Factory default settings are shown in grey.

P
osition

Function

Method

Result

1

No
test

Connect jumper to
J1 pin 1 only.


1-2

Electronics test

Connect
jumper to
J1 pin 1 and 2;

Apply 0 volt
to terminal 10
on the terminal
block (see

Figure 6
)
to start the test.

A successful
remote test will be
acknowledged by an alarm from
the detector
within
1 second.

2-3

Complete
test

(
including mounting check
)

Connect
Test Transmitter SC113 to J1
(black cable to
pin 2 and
red cable to pin 3
);
Apply 0 volt
to terminal 10
on the terminal
block (see
Figure 6
)
to start the test.

A successful
remote test
including mounting check will be
acknowledged by an alarm from
the
detector
within
1 second
.
5. Maintenance

Check the detector mounting and functions regularly
(once a year
at least)
.
Note:
Connect Terminal
9 to low level (<0.6VDC), the sensitivity of detector will be reduced to about 1/8 of original level.

6. Technical Specif
ications

Power
Requirements

Supply Voltage

8

~

16 VDC, nominal 12 VDC

Current
C
onsumption (
Q
uiescent)

3 mA @ 12 VDC

(Noise indicator set to “Off”)

Current
C
onsumption (
A
larm )

2 mA

@ 12 VDC

(Noise indicator set to “Off”)

Voltage
R
ipple

100Hz,
≤10% of no
minal voltage

Step
Change

Unom +/
- 25%

Slow
C
hange of
S
upply
V
oltage

Unom +/
-

25%

W arm
-
up Time

< 5s
ec

Sensitivity

Adjustable
S
ensitivity

4 levels by DIP

S
witch
es

Reduced
S
ensitivity (
M
aintenance
,

S
ervice)
I
nput

A
ctive low
(
terminal 9
)


0
.
6

VDC

Dete
ction
R
adius (
T
hermal
T
ools) on Concrete K350

2

m

Detection
R
adius (
T
hermal
T
ools) on Steel

3

m

Alarm Outputs

Solid
S
tate
R
elay SPST (Normally
C
losed)

30 VDC / 100 mA / typical Ri=25 Ω
(Resistive)

Transistor
O
pen
C
ollector

A
ctive low
during

alarm / Ri=1
.
3
8



Alarm
H
old
T
ime

A
pprox.
2.5

sec

Sabotage
Protection

Pry
-
off and
C
o ver
S
witch

30 VDC / 100 mA

Low
S
upply
V
oltage
A
larm *

<

6.5

VDC

Temperature
A
larm *

+85°C

±

5
°C

Internal
F
unctional
A
larm *

Stainless steel drill shield

* Sabotage and fault fun
ctions will cause the alarm relay to drop.

Inputs

Remote test of detector mounting and detector function
or
Remote test of detector electronics only.

Active low

0.6
VDC,
test duration < 1 sec

Reduced
Sensitivity (
Maintenance,
Service)
Input

Active low

0.6
VDC, duration =
as long as active low

S
ensitivity reduction to 12
.
5%

Installation Tool

A noise and alarm indicator is incorporated to support sensitivity setting.

Environmental
Conditions

Maximum Humidity

95% RH
(non-
condensing)

O
perati
on

Temper
ature

-
40°C
~

+70°C

S
torage Temperature

-
50°C
~

+70°C

Enviro
n
mental
C
lass (VdS)

III

Housing
P
rotection
C
ategory

IP43

IK04

Housing

Dimensions (
H x W x D
)

80 mm x 60 mm x 2
1

mm

Chassis

and
Cover

Die
-
cast metal

Color

RAL
7035 (
l
ight
g
rey)

Weight

0.228
kg

7. Certifications and Approvals

8. Ordering Information

SC105 Mini
-Seismic Vibration Detector
meet
s approval
s as
below:



NF&A2P 3 Boucliers



IMQ type 3


UL



cUL
us


CE



CCC


VdS G
110005
class C



INCERT B
-893-
0001

Mounting Plate

Movable
Mounting
Kit
Key
hole
Prote
ction
Kit
Test Transmitter

1.8
m Armored C
able
Kit (8 wires)

External
Test Transmitter

Recess Mounting Box

Floor Mounting Box

Spacer for Keyhole Protection Kit

SC1
10
SC111

SC112

SC113

SC114

SC115

SC116

SC117

SC118

9. Shipping List

Description

Quantity

SC105 Mini
-Seismic Vibration Detector

1
Screw M4x8
mm
2
Cable Strap

1
Drill Plan

1
Tw o
-way Jumper Link

1
Installation Guide

1





© 20
14 Honeywell International Inc.

www.honeywell.com/security

Document 800-04
952
Rev.
E
Notice for Installation Guide

Pictures i
n the manual are for reference only
. P
lease see the actual
items.

The products will be updated and the information shall not be distributed.

Please read the book before operation and keep it properly for future
use.

The manual has been reviewed and the acc
uracy is guaranteed. If there
is any uncertainty or controversy, please refer to the final explanation of
Honeywell. Honeywell does not take any responsibility for any
consequences caused by misunderstanding of the manual or improper
operations.

Terminal Block

EOL Jumpers

DIP Switches

Noise LED

J20

J19

Tamper Sw
itch

J1

ON

OFF

Note
:

The open collector
alarm output (terminal 8) will
be active low during alarm.

Panel

Detector

Detector

Panel

External EOL

Resistor

Note :
W hen this
wiring diagram is
used, RT still can be
used for tamper loop,
but the jumper on RA
needs be removed
and the external EOL
resi
stor has to be
connected to alarm
loop.


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