Honeywell SC100 - Planning & Install Guide - Dated 2010 Rev. D

Seismic Vibration Detector SC100
Planning and Installation
User Guide




































To get the best use of the product, please read the User Guide carefully before using the product.


Keep the User Guide in an easily accessible place and make it available to the next user.
© 2010 Honeywell International Inc. All rights reserved.
http://www.honeywell.com/security

Document 800-04996 Rev. D
i
TO THE INSTALLER
Before planning and installing the Seismic Vibration Detector SC100, please consider the
following installation requirements:





Electrical Devices





Water piping

Do not install the detectors close to electrical
devices (such as electric motors, transformers,
fans, air conditioners, etc.), which may create
mechanical vibrations in the protected structure.
Avoid mechanical contact between such
devices and the protected surface, or use
appropriate insulating materials to reduce the
vibrations.

Do not install the detectors close to water
piping.
The flow of water through piping, when in
mechanical contact with the protected
structure, emits a strong signal in the
structure itself, which may cause false
alarms.






Bells




Human activity

Do not install the detectors close to the bells.
Do not apply pieces of tape on the bell to
suppress the overtones generated in the
frequency range of the detectors.
DO
install carpet or vibration damping
material on vaults and under safes placed
on concrete or marble floors.
Regular maintenance and inspection (at least annually) by the installer and frequent testing by the
user are vital to continuous satisfactory operation of any product.
The installer should assume the responsibility of developing and offering a regular maintenance
program to the user, as well as acquainting the user with the proper operation and limitations of
the product and its component parts. Recommendations must be included for a specific program
of frequent testing to insure the product’s operation at all times.

ii

LIMITED WARRANTY
WARRANTY INFORMATION
For the latest warranty information, please go to:
www.honeywell.com/security/hsc/resources/wa

Honeywell


iii
Contents

TO THE INSTALLER ...............................................................................................................
................ i

LIMITED WA
RRANT
Y ...............................................................................................................
..............ii

1

About This
Document ............................................................................................................
.......................... 1

Overview of Contents...........................................................................................................
................... 1

Special Font
and Symbols .......................................................................................................
............... 1

How to Use This Document .......................................................................................................
............. 1

2

Introduction...................................................................................................................
................................... 2

Overview of
the Dete
ctor.......................................................................................................
.................. 2

Applications...................................................................................................................
.......................... 2

Features.......................................................................................................................
........................... 3

3

Function Desc
ription...........................................................................................................
............................. 4

Function Criteria..............................................................................................................
........................ 4

Detection Pa
rameters ...........................................................................................................
............ 4

Alarm Criteria .................................................................................................................
................... 4

Function
Modules...............................................................................................................
..................... 4

Sensor Element.................................................................................................................
................ 4

Signal Conditio
nal Block .......................................................................................................
............ 4

Switch Block...................................................................................................................
................... 5

Micro Controller Block .........................................................................................................
.............. 5

Output Alarm Block .............................................................................................................
.............. 5

Power Supply Block .............................................................................................................
............. 5

Sabotage Pr
otection............................................................................................................
.............. 5

4

Basic Acce
ssories ..............................................................................................................
............................. 6

5

Planning Protection ............................................................................................................
............................. 7

Vaults .........................................................................................................................
............................. 7

ATMs and Night Deposit Safes ...................................................................................................
............ 9

Free Standing Safes ............................................................................................................
................... 9

Filing Ca
binets ................................................................................................................
...................... 10

Document Cabinets..............................................................................................................
................. 10

Gates ..........................................................................................................................
.......................... 11

Hatches a
nd Chests.............................................................................................................
................. 11

6

Installa
tion ...................................................................................................................
.................................. 12

Mounting the
Detector..........................................................................................................
................. 12

Opening the
Detector ...........................................................................................................
........... 12

Mounting
on Steel ..............................................................................................................
............. 12

Mounting on Stainless Steel
or Hardened Steel.............................................................................. 13

Mounting on
Concrete...........................................................................................................
.......... 14

Mounting the Ac
cessories .......................................................................................................
.............. 15

The Movable Mounting Kit SC111.................................................................................................
.. 15

The Keyhole Prot
ection Kit SC112...............................................................................................
... 15

The Spacer for Keyhole Protection Kit SC118 ................................................................................ 16

The Armored Cable Kit SC114....................................................................................................
.... 16

The Test Transmi
tter SC113 .....................................................................................................
...... 16

The External Test
Transmitter SC115............................................................................................
.16

The Recess Mounting Box SC116 ..................................................................................................
17

The Floor Mounting Box SC117 ...................................................................................................
... 17

7

Settings .......................................................................................................................
.................................. 18

DIP Switch Settings............................................................................................................
................... 18

EOL Jumper Settings ............................................................................................................
................ 19

J19/J20
Settings ...............................................................................................................
.................... 19

J1 Setting .....................................................................................................................
......................... 19

8

Connecting the Detector........................................................................................................
........................ 20

9

Test ...........................................................................................................................
.................................... 21

Field Test .....................................................................................................................
......................... 21

Control and Func
tion Test......................................................................................................
............... 22

Remote Test
(Alternative) ......................................................................................................
............... 22

10

Technical Spec
ifications .......................................................................................................
......................... 24


iv

Figures

Figure 2-1 Detector Description ................................................................................................
......................................................2

Figure 5-1 Planning
Vault Prot
ecti
on...........................................................................................
....................................................7

Figure 5-2 Layout Plan.........................................................................................................
...........................................................8

Figure 5-3 Detector mounted on the
center of one
modular
vaul
t .................................................................
...................................8

Figure 5-4 Detector mounted
between two modul
ar v
aults
.........................................................................
.....................................8

Figure 5-5 Planning
ATM Protection .............................................................................................
..................................................9

Figure 5-6 Planning Night Safe
Deposit Box
Protec
tion
..........................................................................
........................................9

Figure 5-7 Detectors mounted
on the outside
of the
Safe ........................................................................
.....................................10

Figure 5-8 Planning Filin
g Cabinet Pr
otecti
on ..................................................................................
.............................................10

Figure 5-9 Planning Docume
nt Cabinet
Protec
tion
................................................................................
........................................11

Figure 6-1 Opening
the Dete
ctor................................................................................................
...................................................12

Figure 6-2
Drill Pl
an ..........................................................................................................
............................................................12

Figure 6-3 Mounti
ng Plate
SC110
................................................................................................
.................................................13

Figure 6-4 Movable Mount
ing Kit SC111
Component
s...............................................................................
...................................15

Figure 6-5 Keyhole Protec
tion Kit SC112
Component
s .............................................................................
....................................15

Figure 6-6 Spacer for Keyhole
Protection Kit
SC118 Com
ponents
..................................................................
..............................16

Figure 6-7 Armored Cabl
e Kit SC114
Component
s..................................................................................
.....................................16

Figure 6-8 Test Transmi
tter SC113
Component
s ...................................................................................
.......................................16

Figure 6-9 External Test
Transmitter SC
115 Com
ponents
..........................................................................
..................................16

Figure 6-10 Recess Mount
ing Box SC116
Component
s ...............................................................................
................................17

Figure 6-11 Floor Mounti
ng Box SC117
Component
s ................................................................................
...................................17

Figure 7-1 Function modul
es on Detect
or Base ...................................................................................
.........................................18

Figure 8-1 Wiring on the terminal block........................................................................................
.................................................20

Figure 8-2 Alarm and tamper
configured
to one
loop
.............................................................................
.......................................20

Figure 8-3 Alarm and tamper
configured to
two
loops
............................................................................
.......................................20








Tables

Table 2-1 Application Settings .................................................................................................
.......................................................2

Table 9-1 Remote Test ..........................................................................................................
.......................................................23


Honeywell

- 1 -
1 About This Document
Thank you for purchasing Honeywell Seismic Vibration Detector SC100.
This guide is designed to be a reference for the planning and installation of the Seismic Vibration
Detector SC100.
Overview of Contents
This document contains the following chapters:
•

Chapter 1, About This Document
, gives a brief introduction of “Seismic Vibration Detector
SC100 Planning and Installation User Guide”.
•

Chapter 2,

Introduction
, provides general information about the Seismic Vibration Detector
SC100, applications and features.
•

Chapter 3,

Function Description
, introduces the function criteria and function modules of the
Seismic Vibration Detector SC100.
•

Chapter 4, Basic Accessories
, lists all basic accessories used with the Seismic Vibration
Detector SC100.
•

Chapter 5,

Planning Protection
, gives instructions on placement planning for the Seismic
Vibration Detector SC100 in different applications.
•

Chapter 6, Installation
, describes how to install the Seismic Vibration Detector SC100 and
related accessories.
•

Chapter 7, Settings
, shows how to configure sensitivities and other settings on the Seismic
Vibration Detector SC100 base.

•

Chapter 8, Connecting the Detector
, illustrates how to wire and connect the Seismic
Vibration Detector SC100 to the protected zone.
•

Chapter 9, Test
, describes important installation and function tests for the Seismic Vibration
Detector SC100.
•

Chapter 10,

Technical Specifications
, provides technical specifications of the Seismic
Vibration Detector SC100.
Special Font and Symbols
Italic
references
Note

important information
Caution
important operation warning

How to Use This Document
•

Illustrations in the manual are for reference only; please see the actual items.
•

Product modifications and updates may be made at any time without notification.
•

Please read the manual before operation and keep it for future reference. Introduction
- 2 -
2 Introduction
Overview of the Detector
The Seismic Vibration Detector SC100 is a universal seismic or structural vibration detector
designed to detect selected vibrations from burgl
ary or intrusion attempts on high value storage
units, such as Vaults, Doors, ATMs, Safes and other solid structures.
The detector consists of a sensor element to convert mechanical vibrations to electrical signals, a
signal conditional block, micro controller block, output alarm block, tamper protection, and a
switching block for selecting detector settings, all in a miniature metal housing.
Figure 2-1 Detector Description

Detector Cover Detector Base
Applications
The Seismic Vibration Detector SC100 is designed to detect any known attack tool on:
•

Vaults (Vault Doors, Strong Room Vaults, Modular Vaults)
•
ATMs
•

Night Deposit Safes
•

Free Standing Safes
•
Gates
•
Hatches
•
Chests
•

Other objects with a solid structure
Depending on the vibration characteristics of the application construction, sensitivity required in
each sensor, and the natural vibrations and ambient noise level in the premises, the detection
ranges of the Detector SC100 should follow the parameters in the table below.
Table 2-1 Application Settings
Sensitivity
Settings
Material
Detection
Radius
Applications Noise Level
G
high

Concrete
(K350)
5.0m
(16.4 ft.)
Vaults, Safes and ATMs
(advised for grade 4 to 6)
Insignificant noise
level
Concrete
(K350)
2.5m
(8.2 ft.)
G
normal

Steel
4.0m
(13.1 ft.)
Vaults, Safes and ATMs
Moderate noise level
Concrete
(K350)
1.5m
(4.9 ft.)
G
low

Steel
2.0m
(6.6 ft.)
Free Standing Safes, Night
Deposit Safes, ATMs and
Chests
Considerable noise
level Honeywell

- 3 -
Sensitivity
Settings
Material
Detection
Radius
Applications Noise Level
G
noisy
Steel
1.5m
(4.9 ft.)
Free Standing Safes, Night
Deposit Safes, ATMs and
Chests with excessive noise
(internal or external)
Heavy noise level

Note

•

Sensitivity settings (G
high
, G
normal
, G
low
, G
noisy
) are defined in “
DIP Switch Settings
” on page
18
.
•

The parameters in the table above are for reference only and they may vary according to
the quality of the material.
•

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

Features
The Seismic Vibration Detector SC100 has the following features:
•

24-hour detection of all known attack tools on Vault, Doors, Safes, ATMs, etc.
•

Flat frequency non-resonant response sensor for genuine frequency analysis.
•

Built-in diagnostic tool used to set detector sensitivity in relation to existing noise level.
•

DIP switch sensitivity settings to adapt to various applications.
•

Integrated EOL resistors compatible with various control panels.
•

High detection capability due to new sophisticated signal handling and incorporated
computer algorithms.
•
Low current consumption.
•

Solid state change over alarm relay.
•

Multipurpose accessories provided with multiple applications.
•

Standard drill sheet protection.
•

Rate of Rise and temperature alarm.
•

Miniature metal housing – easy to fit in restricted spaces.
•

Approved by IMQ type 3, cULus, CE, and CCC. Function Description
- 4 -
3 Function Description
Function Criteria
Detection Parameters
The detection function of the Seismic Vibration Dete
ctor SC100 is based on the structural vibrations
generated on the protected surfaces upon an atte
mpt to break through the physical barriers.
Vibrations detected comprise four important parameters:
•
signal strength (amplitude)
•

signal frequency (spectra)
•
signal duration
•
structure of duration
These parameters differ between real attacks and "normal" background vibrations and will be
detected and analyzed by the detector before an alarm is triggered. The characteristics below
represent signals that can be detected by the Detector SC100:
•

Signals with very high amplitude and short duration, which can be generated by explosives.
•

Signals with medium to high amplitude and medium to long or intermittent duration, which
can be generated by mechanical demolition tools.
•

Signals with wide frequency spectra, low amplitude and long duration, which can be
generated by thermal attacks.
Alarm Criteria
The signals detected will be analysed by several parallel software detection modes with specific
algorithms for detection of known attack methods and tools as described as below:
•

The low level detection mode
is designed to recognize low to medium amplitude signals
with long duration, like those caused by a thermic lance, oxy-arc or acetylene torch.
•

The medium level detection mode
is designed to detect medium to high amplitude and
medium to long or intermittent duration signals as caused by mechanical demolition, such
as hydraulic jack, hammer, chisel and electric power tools.
•

The high level detection mode
is designed to detect very high amplitude and short
duration signals as caused by explosives.
The signal from the sensor is fed to the signal conditioning block and further to the micro
controller for evaluation. An alarm signal will be sent to the output alarm block when a condition
with sufficient signal strength, frequency spectra and signal duration is achieved.
Function Modules
Sensor Element
The Seismic Vibration Detector SC100 includes a sensor element that converts mechanical
vibrations into electrical signals. These signals provide a non-resonant flat frequency response
for genuine signal analysis, which is used for detection of structural vibrations caused by attacks
against the protected surface. These signals will be analyzed in different software detection
modes.
Signal Conditional Block
The electrical signal the sensor converted is fed to the signal conditional block that adapts the
signal for further analysis. It also contains circuits for supply voltage and temperature supervision
(see
Alarm Criteria
on page
4
). This block also generates test signals for the Test Transmitter
SC113. Honeywell

- 5 -
Switch Block
This block contains the DIP switches for sensitivity settings, application settings and the noise
LED settings, further communicating with the micro controller and signal conditional blocks.
Micro Controller Block
This block is the heart of the Detector SC100. It handles functions for signal analysis and
recognition, circuit supervision of power supply a
nd temperature, noise recognition and indication,
test and sensitivity reduction, etc.
It also contains a watchdog function which is used
to detect system lockups and create an alarm
signal to the output alarm block. This block contains nano watt technology and the software code
stored in a flash program memory with code protection.
Output Alarm Block
The circuits in the output alarm block will be activated by the micro controller block when intrusion
attack signals are recognized. The alarm output provides two forms of alarm signals:
•

One potential free solid state SPDT change over relay.
•

One open collector transistor output, going into conductive mode upon alarm condition.
The transistor is protected against overload with a series resistor of 1.38k Ohm.

Note

No protection against sabotage attempts with external magnetic fields is needed due to solid
state alarm relay.

Power Supply Block
The input circuits are very well protected against el
ectrical interference and high energy electrical
surges by filtering, transient absorber and spark gaps. The small mechanical dimensions, circuit
board layout and design, results in very good resistance against RFI from various transceivers,
cell phones and so on. The Detector SC100 has a wide supply voltage range from 8 to 16 VDC
due to the low internal system voltage of 5 Volt.
Sabotage Protection
The Seismic Vibration Detector SC100 has a full range of tamper protection features, thus an
alarm will be given when an attempt is made to:
•

Pry off the detector from the protected surface
•

Open the detector
•

Disable the detector by heat
•

Lower the supply voltage below 6.5V
The Detector SC100 is equipped with a stainless steel drill shield that makes it difficult to drill into
the detector and at the same time generates strong vibrations. Basic Accessories
- 6 -
4 Basic Accessories



Mounting Plate SC110



Movable Mounting Kit SC111





Keyhole Protection Kit SC112


Spacer for Keyhole Protection Kit SC118



Test Transmitter SC113

External Test Transmitter SC115





Recess Mounting Box SC116





Floor Mounting Box SC117




Armored Cable Kit (8 wires) SC114




Honeywell

- 7 -
5 Planning Protection
Before mounting the detector, carefully plan the mounting locations to achieve an extremely high
security level.
In general, the detectors should be mounted at the center of the detection range (see
Table 2-1
Application Settings
on page
2
.) or positioned where most of t
he attacks are likely to be aimed.

Caution

Please read

TO THE INSTALLER
on page
i
before planning the installation.
Vaults
Recommended detector mounting locations for vaults, including vault doors, strong room vaults
and modular vaults:
•

On each wall
•

On the floor
•

On the ceiling inside the vault
•

On or inside the vault door
Figure 5-1 Planning Vault Protection

The Mounting Plate SC110, the Recess Mounting Box SC116 and the Floor Mounting Box SC117
can be used to mount the detectors in the vaults. Mounting detectors at least 1,80m high to keep
clear from lockers is recommended.
The sensitivity of the detectors can be set to G
high
or G
normal
, depending on actual applications.
Layout Plan
A layout plan is used to help define the location of detectors mounted in the vaults. It is
recommended to prepare a layout plan before mounting the detectors according to the actual
construction. The figure below shows a sample for a 7 x 5 x 3 meter (23 x 16.4 x 9.8 ft) sized
vault..
Planning Protection
- 8 -
Figure 5-2 Layout Plan
Wall
Wall
Wall
Wall
Floor
Ceiling
7
meter
3
meter
5
meter
Layout Plan for a Vault 7x5x3 meters

Planning Guidelines
•

The detection range will be reduced if joints or cracks exist in the vault, corners, between
walls and floor, and/or on the ceiling. In these cases install detectors on both sides of the
irregularity found.
•

The vault door can be protected by directly mounting a detector inside the door leaf or
outside the door. For this application, use the Movable Mounting Kit SC111 or the Keyhole
Protection Kit SC112.
•

When installing the detectors in an existing vault, mount a detector on the door frame to
protect the walls on either side of the door and partly the vault door.
•

Modular Vaults must be bolted and welded together to get a reasonable detection range.
•

One maximum module [width is 1000mm (39.37 in.) and length is 6500mm (255.9 in.)] can
be covered on the other side of a welded corner.
•

A detector mounted on the center of one module can cover 5 adjacent modules at most.
Figure 5-3 Detector mounted on the center of one modular vault


•

A detector mounted on a welded mounting plate between two modules can cover 6
adjacent modules at most.
Figure 5-4 Detector mounted between two modular vaults


•

Before reducing the sensitivity where noise level is high, the noise source should first be
removed.
•

Drill tests should be performed on the outside of the vault.

Note

This guideline is typically recommended for detector mounting and should always to be
followed up by practical sensitivity and noise checks before the installation is completed.
Layout Plan for a Vault 7 x 5 x 3 meters
(23 x 16.4 x 9.8 ft). Honeywell

- 9 -
ATMs and Night Deposit Safes
ATMs and Night deposit safes are frequently exposed to human made noise as well as extensive
internal noise. The recommended application setting for ATMs is to set DIP switch 3 to the OFF
position.
For both ATM and night deposit safes we recommend mounting:
•

At least one detector on or inside the safe cabinet, close to the dispenser opening.
•

One detector on the door, close to or between the hinges or inside the door leaf.
Figure 5-5 Planning ATM Protection

Figure 5-6 Planning Night Safe Deposit Box Protection


The Movable Mounting Kit SC111 or the Keyhole Protection Kit SC112 and the Armored Cable
Kit SC114 can be used when mounting detectors on the safes.
Free Standing Safes
The signal transmission from an attack is often very poor between the door and the cabinet of a
safe, therefore we recommend mounting two detectors (inside or outside):
•

On the body
•

On the door
Detectors mounted inside
Inside of the safe, we recommend mounting detectors:
•

At the hinge side, close to the upper hinge of the safe cabinet.
On or inside the door
Close to the dispenser opening
On or inside the door
Close to the dispenser opening
Rubber Pad
Reduces noise created by falling
cash boxes when deposited. Planning Protection
- 10 -
•

Inside of the door leaf as close as possible to the lock mechanism or to the hinges.
The Armored Cable kit SC114 should be used when mounting a detector on/in the door and for
added protection, a magnetic contact should be added on the door. Cable outlet options are
normally provided in new safes. If not, mount the detectors on the outside.
Detectors mounted outside
Outside of the safe, we recommend mounting one detector:
•

On the side of the safe, close to the hinge
And the other detector can be mounted on the door in three different ways:
•

Close to the hinge, providing a short distance with the Armored Cable Kit SC114.
•

Close lose to the lock, mounted on the Keyhole Protection Kit SC112.
•

In such way that the cable prevents opening the door when the detector is on the night
position plate, mounted with the Movable Mounting Kit SC111.
Figure 5-7 Detectors mounted on the outside of the Safe



Detectors are better protected when mounted inside, and detectors mounted outside will have a
deterring effect.
The Movable Mounting Kit SC111 and the Keyhole Protection Kit SC112 have the advantage of
forcing the staff to handle the alarm installation properly. It prevents the staff forgetting to remove
keys or close the safe doors properly and blocks the keyhole from being loaded with explosives.
Filing Cabinets
Mounting the detector as close as possible to the lock mechanism on one side of the cabinet is
recommended. The Movable Mounting Kit SC111 can also be mounted on a drawer that has a
higher security requirement. See
Figure 5-9 Planning Document Cabinet Protection
for reference.
Figure 5-8 Planning Filing Cabinet Protection

Document Cabinets
For document cabinets, it is best to mount the detector inside or outside on the top surface at the
front, close to or between where the door bolts come up.
Also, in high security applications, using a Movable Mounting Kit SC111 on the door is
recommended. Honeywell

- 11 -
Figure 5-9 Planning Document Cabinet Protection


Note

Document and filing cabinets have thinner steel surfaces which act as a membrane for
acoustic (sound) waves. Before leaving the installation site, check carefully to ensure the
sensitivity is not set too high.

Gates
For Gates, particularly Industrial Gates, which are made of steel, mounting the detector on the
upper part of the frame into which the vertical rods are welded is recommended.

A weather protection box (which can be purchased from an electrical equipment wholesaler)
should be used to protect the detector from moisture. The detector must be in direct metallic
contact with the gate by using screws or a welded mounting plate.

Hatches and Chests
For protection of Hatches and Chests, normally one detector is mounted inside the Hatch or
Chest door and one additional detector is mounted inside the chest cabinet if it consists of a solid
structure like concrete or steel. Installation
- 12 -
6 Installation
Mounting the Detector
The Seismic Vibration Detector SC100 can be mounted on any solid surface and is most
commonly used on Steel, Stainless Steel, Hardened Steel and Concrete.

Caution

•

Please read

TO THE INSTALLER
on page
i
before mounting the detector.
•

Before the installation is completed, make sure the sensitivity setting is correct and the
noise level is considered.
•

The detector should not be mounted on cinder block or other unproved masonry surfaces.
Opening the Detector
Before mounting the detector, remove the top screw to separate the detector cover from the
detector base.
Figure 6-1 Opening the Detector

Mounting on Steel
When mounting the detector on a flat, smooth steel surface, both the Drill Plan (see
Figure 6-2
Drill Plan
) and the Detector Base (see
Figure 2-1 Detector Description
) can be used to mark the
mounting holes.
Figure 6-2 Drill Plan
Note Please remove the drill
:
plan after mounting holes
have been drilled


Refer to the steps below to mount the Detector SC100 on steel.
1. Attach the Detector Base or Dill Plan on the mounting area, and then mark the outline and
center punch the detector mounting holes A, B and test transmitter mounting hole C.
2. Remove the Drill Plan or Detector Base, and then thoroughly remove the paint in the
outline marked on the mounting area.
Note:
The remnant Drill Plan or paint will significantly weaken the sensitivity.
A
B

Notes:
•
The detector base cannot be
used to mark test transmitter
mounting hole C.
•
Skip marking hole C if a Test
Transmitter SC113 is not used.

C
A
B
A

A, B
- Detector SC100 mounting holes
C
- Test Transmitter SC113 mounting hole
C

Note:
The drill plan must be
removed after all of the mounting
holes have been drilled.
B
Note:
The top screw is only
used for securing the cover,
so do not tighten it too much
when mounting the detector. Honeywell

- 13 -
3. Drill the detector mounting holes A, B [Ø
3.3mm (0.15 in.) and minimum 8 mm
(0.35 in.) deep], and then thread the two
holes with a M4 Tap [6mm (0.25 in.) at
least].
4. Drill the Test Transmitter SC113
mounting hole C [Ø 3.3mm (0.15 in.)
and minimum 8 mm (0.35 in.) deep],
and then thread the hole with a M4 Tap
[6mm (0.25 in.) at least].
Notes:

•
Cool the tools with oil while drilling and
threading.
•
Skip step 4 if a Test Transmitter SC113 is not
used.

5. Remove all of the burrs.
6. If used, attach the Test Transmitter SC113
on the mounting area (at C) and then use
the

M4
×
8mm (0.35 in.) screw to secure it.
Note:
Skip this step if a Test Transmitter SC113 is
not used.
C

7. Attach the detector base on the steel
surface and then use the two M4
×
8mm
(0.35 in.) screws provided to secure it.

8. Wire and configure the detector (see the
related chapter in this user guide) and after
a successful test, use the top screw to
secure the detector cover properly.

Mounting on Stainless Steel or Hardened Steel
When mounting on stainless steel or hardened steel, the Mounting Plate SC110 (
UPSIDE DOWN
)
must be used and should be welded on the mounting surface first.
Figure 6-3 Mounting Plate SC110
UPSIDE
F
G
C
D
E
A
B

This orientation is used for
mounting on
concrete
.
A
,
B
– Detector SC100 mounting holes
C
,
D
, – Test Transmitter SC113 locating hole
E
– Mounting Plate SC110 mounting hole
F
,
G
– Welding Slots
UPSIDE DOWN
FG
C
D
E
A
B

This orientation is used for
mounting on
stainless
steel
or
hardened steel
.
Refer to the steps below to mount the Detector SC100 on stainless steel or hardened steel.
1. Remove paint from the mounting area
(especially the welding area).
2. Attach the Mounting Plate SC110 on the
mounting area, and then mark the
outline.

3. Attach the Mounting Plate SC110 into the
outline marked and ensure it cannot move,
and then along the
INSIDE
of the welding
slots, weld the Mounting Plate SC110 on the
mounting surface.
Note:
The welding must be done along the
INSIDE
of
the welding slots, otherwise the Mounting Plate
SC110 may be distorted.

4. Tap off slag and remove weld spatter and make sure the whole mounting surface is still
flat.
5. Attach Test Transmitter SC113 on the mounting plate (at C) and then use the M4
×
8mm
(0.35 in.) screw to secure it.
Note:
Skip this step if a Test Transmitter SC113 is not used. Installation
- 14 -
C

6. Attach the detector base on the
Mounting Plate SC110 and then use the
two M4
×
8mm (0.35 in.) screws
provided to secure it.

7. Wire and configure the detector (see the
related chapter in this user guide) and after
a successful test, use the top screw to
secure the detector cover properly.

Mounting on Concrete
When mounting on concrete, the Mounting Plate SC110 (
UPSIDE
) must be used (see Figure 6-3).

Caution

Mounting the detector directly on a bare or plastered concrete surface will result in low
detection sensitivity and may cause damage to the detector.

Refer to the steps below to mount the detector on concrete.
1. Attach the Mounting Plate SC110 on
the mounting area and then mark the
outline and center hole E.
2. Drill the center hole E of Ø 10mm (0.40
in.) and minimum 65mm (2.6 in.) deep,
and then remove all drill residue and
plaster.


E


3. Insert the M6 anchor into hole E and make
sure the anchor can enter into the concrete.
Note:
Use a longer M6 anchor or a distance sleeve
between the Mounting Plate SC110 and the anchor if
the M6 anchor cannot reach the solid concrete.
4. Hold the Mounting Plate SC110 in place and
install the M6
×
50mm (2 in.) screw in the
wall, but do not fully tighten.
Note:
The Mounting Plate SC110 here can be rotated.

Note:
Skip step 6 to step 11 if a Test Transmitter SC113 is not used.
5. Rotate the Mounting Plate SC110 clockwise 180 ̊ and mark hole C.
6. Rotate the Mounting Plate SC110 counterclockwise until the mark from hole C can be seen
through hole D.
Note:
Tighten the center screw slightly to stabilize the Mounting Plate SC110 at this position.
7. Through hole D drill a hole of Ø 5.5 mm (0.25 in.) and minimum 25mm (1 in.) deep and
then remove all residue.

180
°
Clockwise
C
D
D
D
C
C
Anticlockwise

8. Release and turn the Mounting Plate SC110 to the original orientation.
9. Insert the M4 anchor into the drilled hole and make sure the anchor will enter into the concrete.
10. Attach the Test Transmitter SC113 on the M4 anchor, and then use the M4
×
14mm (0.55
in.) screw to permanently secure it.
Counter-
clockwise Honeywell

- 15 -

11. Tighten M6×50mm (2 in.) screw (knock on the screw head with a hammer and then tighten)
until the Mounting Plate SC110 is fastened on the concrete surface and cannot be rotated.
12. Attach the detector base on the
Mounting Plate SC110 and then use
the two M4
×
8mm (0.35 in.) screws
provided to secure it.

13. Wire and configure the detector (see the
related chapter in this user guide), and after
a successful test use the top screw to secure
the detector cover properly.


Mounting the Accessories
A full range of mounting accessories for different applications facilitates a wide range of mounting
requirements.
The Movable Mounting Kit SC111
The Movable Mounting Kit SC111 consists of one mounting plate on which Detector SC100 is
mounted, one Day position plate on which the Detector SC100 is positioned when the system is
not armed, and one Night position plate mounted on the protected surface, on which the Detector
SC100 is positioned when the system is armed.
The figure below shows the components of the Movable Mounting Kit SC111. For more
information, please refer to the
“Movable Mounting Kit SC111 User Guide”
.
Figure 6-4 Movable Mounting Kit SC111 Components


The Keyhole Prot
ection Kit SC112
The Keyhole Protection Kit SC112, used with the Detector SC100, prevents unlocking while the
system is armed, prevents loading explosives into the keyhole and is a mounting plate which
allows the Detector SC100 to detect intrusion attempts on doors.
The figure below shows the components of the Keyhole Protection Kit SC112. For more
information, please refer to the
“Keyhole Protection Kit SC112 User Guide”
.
Figure 6-5 Keyhole Protection Kit SC112 Components

Cover Plate Base Plate
Night Position Plate
Day Position Plate
Mounting Plate Installation
- 16 -
The Spacer for Keyhol
e Protection Kit SC118
The Spacer SC118 is used with the Keyhole Protection Kit SC112 only if the steel slide on SC112
touches the keyhole collar on the protected surface. For more information, please refer to the
“Keyhole Protection Kit SC112 User Guide”
and
“Keyhole Protection Spacer SC118 User Guide”
.
Figure 6-6 Spacer for Keyhole
Protection Kit SC118 Components

The Armored Cable Kit SC114
The Armored Cable Kit SC114 is designed to provide protection of the detector wiring when the
detector is installed on the door or wall of a safe or vault. See
Figure 5-7 Detectors mounted on
the outside of the Safe
on page
10
for reference.
The Armored Cable Kit SC114 includes the following items:
•

8 core cable, white
•

Flexible stainless steel conduit
•
Cable straps
Figure 6-7 Armored Cable Kit SC114 Components

The Test Transmitter SC113
The Test Transmitter SC113 is used for checking the proper mounting, wiring and function of the
detector, and it should be mounted inside of the detector. For information on mounting the Test
Transmitter SC113, please refer to the
Mounting the Detector
section starting on page
12
.
Figure 6-8 Test Transmitter SC113 Components

The External Test Transmitter SC115
The External Test Transmitter SC115 is a range test transmitter developed to check and ensure
the mounting and the function of the seismic detector is good. The SC115 generates a simulated
attack signal in the protected object with multiple SC100 seismic detectors installed in concrete
vaults and all other solid structure value storage units.
The figure below shows the components of the External Test Transmitter SC115. For more
information, please refer to the
“External Test Transmitter SC115 Installation Guide”
.
Figure 6-9 External Test Transmitter SC115 Components

Front Cover Transmitter Base

Honeywell

- 17 -
The Recess Mounting Box SC116
The Recess Mounting Box SC116 provides an easy way to mount the detector in the wall and
protect the detector from external destruction.
The figure below shows the components of the Recess Mounting Box SC116. For more
information, please refer to the
“The Recess Mounting Box SC116 User Guide”
.
Figure 6-10 Recess Mounting Box SC116 Components

Wall Plate Mounting Box
The Floor Mounting Box SC117
The Floor Mounting Box SC117 is designed to provide an easy way to mount the detector
recessed in the floor and protect the detector from external destruction.
The figure below shows the components of the Floor Mounting Box SC117. For more information,
please refer to the
“The Floor Mounting Box SC117 User Guide”
.
Figure 6-11 Floor Mounting Box SC117 Components

Mounting Box
Floor Plate Settings
- 18 -
7 Settings
All the settings should be configured on the detector base before the detector is installed
permanently. The related function modules are shown as below.
Figure 7-1 Function modules on Detector Base



DIP Switch Settings


Sensitivity Settings
Application Settings Noise LED
1 2
3
4
G
high
OFF OFF
High sensitivity
setting
OFF
ATMs/ Night
deposit safes
OFF
Noise indicator
OFF
G
normal

ON
OFF
Normal sensitivity
setting
ON
Safes / Vaults
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.

Note

•

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

Any change of DIP switch 3 must be followed by a power-off sequence of 5 seconds.
•

The Noise LED will light or flash rapidly 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.
•

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

In case of alarm, the Noise LED will flash with 5 Hz, approximately 2.5 seconds.
•

Turning off the Noise LED by DIP switch 4 will reduce current consumption.


ON
OFF
Terminal Block
EOL Jumpers
DIP Switches
Noise LED
J20
J19
Tamper Switch
J1 Honeywell

- 19 -
EOL Jumper Settings





Jumper Position
EOL Value
1-2
1K
2-3 2.2K
4-5 4.7K
TAMPER
(RT)
5-6 5.6K
1-2
1K
2-3 2.2K
4-5 4.7K
ALARM
(RA)
5-6 5.6K
* Factory default settings are shown in grey.

Note

•

Refer to Control Panel manual for proper EOL selection.
•

For each block, only one EOL value can be set.
•

Other EOL resistor values can be used by removing all jumpers on the EOL jumper field
and wire new resistors directly on the terminal block.
J19/J20 Settings



No Jumper
Jumper
J19
Terminal 8 = Spare Terminal
Terminal 8 = Alarm O/C Output
J20
Connect SC111/SC112 to the loop
Normal Close
* Factory default settings are shown in grey.
J1 Setting

J1 is used for remote testing. For details, please see the
Remote Test
section on page
22
. Connecting the Detector
- 20 -
8 Connecting the Detector
The terminal block of the Detector SC100 should be wired correctly before the detector cover has
been secured.
Follow the steps below to wire the pins on the terminal block:
1.
Insert and feed the cable through the grommet and cable inlet, see
Figure 7-1 Function
modules on Detector Base
for reference.
2.
Cut and strip the cable, leaving approximately 10cm (4 in.) of wires after the strain relief.
3.
Remove about 6 mm (0.25 in.) of the wire insulation.
4.
Wire the terminals according to wiring diagram below.
Figure 8-1 Wiring on the terminal block



Note

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

5.
Connect the detector to the panel according to the actual application requirements: See
Figure 8-2
for connecting the detector to a zone configured as Dual-End-of-Line and
Figure
8-3
for connecting the detector to a zone configured as Single-End-of-Line.
Figure 8-2 Alarm and tamper configured to one loop
RTI
RSI
S/OC
T2
T1
C
NC
V+
NO
0V
Z1
COM
Tamper
RT
Alarm
J20
RA

Figure 8-3 Alarm and tamper configured to two loops
RTI
RSI
S/OC
T2
T1
C
NC
V+
NO
0V
Ta m p e r
RT
Alarm
J20
Z1
COM
Z2

External EOL
Resistor
Note:
When this wiring diagram
is used, RT still can be used for
the tamper loop, but the jumper
on RA needs be removed and
the external EOL resistor must
be connected to the alarm loop. Honeywell

- 21 -
9 Test
The Detector SC100 features three important tests in order to provide the highest level of security:
•

Field Test
- Determines the detection range, sensitivity level and mounting location before
mounting the detector.
•

Control and Function Test
- Checks the proper mounting and wiring of the detector before
mounting it permanently.
•

Remote Test
- Checks the proper function, mounting and wiring of the detector at any time.
Field Test
Before mounting the detector, a field test should be done to determine the detection range, the
detector sensitivity, and the proper mounting locations.
The field test should include the following:
•

Visual inspection of the construction of the protected object or surface.
•

Discovery of any irregularities in the construction.
•

Checking the ambient noise level in the premises by activating the Noise LED tool with DIP
switch 4.
•

Defining the location of each sensor.

Note

For full coverage and complete testing, the items below may be used:
•

Additional detectors
•

Electric drill and a 6 mm (0.24 in) carbide tipped drill bit
•

The Test Transmitter SC113 and External Test Transmitter SC115

Follow the steps below to perform the field test:
1.
Locate any irregularity in the construction.

Note

The mortar between bricks and blocks should be considered as irregularities.

2.
Install a detector at one side of the suspected irregularity.
3.
Wire the detector to the power supply and alarm circuit.
4.
Set the detector sensitivity to G
high
.
5.
Drill into the wall at a point equal to the detection radius (R) depending on the construction
type as described in
Table 2-1 Application Settings
on page
2
.
6.
Check for an alarm.
7.
If an alarm does not occur, assume that the irregularity limits the protection range of the
detector. Drill again closer to the sensor until an alarm occurs and identifies the irregularity.
8.
Take all irregularities into account when spacing detectors. Additional detectors may be
required.

Note

The separation between vault door and the frame may require an additional detector on the
door to insure detection of the door and wall surfaces.
Test
- 22 -
Control and Function Test
Before leaving the installation, the control and function test should be performed to ensure:
•

The proper wiring of the detector, preferably against a wiring diagram.
•

The proper mounting of the detector, the
Test Transmitter SC113 or External Test
Transmitter SC115 (see the “
External Test Transmitter SC115 User Guide
”).
Perform the following tests:
1.
Use a screw driver to scratch on the protected surface (safes) and drill in the wall (vaults) at
the fringe of the expected coverage area. An alarm from the detector should be activated
within 45 seconds.
2.
Knock firmly with a hammer around the detector with two-second intervals between blows.
After four to seven blows, Detector SC100 in safe and vault mode shall alarm.

Note

•

To protect the surface from damage it is advised to use a small metal plate between the
hammer and surface.
•

This test simulates an attack with a hammer and chisel and is only valid for Detector
SC100.

3.
Give one powerful blow near the detector with a hammer. The detector should give an alarm
immediately. This test simulates an attack with explosives.

Note

Check the background noise level in the detector to prevent a false alarm.

4.
Activate the Noise LED tool by setting DIP switch 4 to the ON position.
5.
Set the sensitivity to G
high
. Make sure that all possible sources of vibrations in the protected
area are present and operating.
6.
Check the Noise LED. It will be OFF if the noise level is acceptable. If the Noise LED is
flickering or ON, try to find the noise source and remove it.

Note

•

Always try to remove the source of ambient noise before reducing the detection range.
•

Switch OFF the Noise LED tool by setting DIP switch 4 to the OFF position.
•

Set the sensitivity of the detector to an appropriate value. Close the detector cover and
check for a closed-loop condition of the tamper-loop. Perform a functional test of both
alarm and tamper signals according to the panel specifications.

Remote Test (Alternative)
To reach the highest security level of the Detector SC100, the system provides three different
remote test possibilities. For high security installations a daily remote test of the Detector SC100
function and mounting is advised.
•

Remote test of the detector electronics, excluding the vibration sensing element.
•

Remote test of the detector functionality including the detector vibration sensor element and
installation on the protected surface. This te
st option incorporates the Test transmitter
SC113 mounted on the protected surface and under the Detector SC100.
•

Remote range test of several Detector SC100s simultaneously. This test option includes
remote test of the detector functionality including the detector vibration sensing element and
installation on the protected surface, as well as testing of the signal propagation across the
solid structure of the protected object between multiple Detector SC100s and the External
Test Transmitter SC115.
J1 on the detector base (see
Figure 7-1 Function modules on Detector Base
on page
18
) is used
for remote testing, and details are shown in the table below. Honeywell

- 23 -
Table 9-1 Remote Test
Position Function Method
Result
No test
Connect jumper to J1 pin 1
only (or no jumper at all).

1

Range test with
External Test
Transmitter
SC115
(including
mounting check)
See “
External Test Transmitter SC115 User Guide
”.

1-2

Electronics test
Connect jumper to J1 pin 1
and 2;
Apply an active low 0 volt to
terminal 10 on the terminal
block to start the test.
A successful remote test
will be acknowledged by an
alarm from the detector
within 1 second.
2-3

Complete test
with Test
Transmitter
SC113
(including
mounting check)
Connect Test Transmitter
SC113 to J1(red cable to
pin 2 and black cable to pin
3);
Apply an active low 0 volt to
terminal 10 on the terminal
block to start the test.
A successful remote test
including mounting check
will be acknowledged by an
alarm from the detector
within 1 second.
* Factory default setting is shown in grey. Technical Spec
ifications
- 24 -
10 Technical Specifications
Note

Check the detector mounting and functions regularly (at least once a year).
Connect Terminal 9 to low level (<0.6VDC) to reduce the sensitivity of the Detector SC100
to about 1/8 of original level.

Power Requirements

Supply Voltage
8 ~ 16 VDC, nominal 12 VDC
Current Consumption (quiescent)
3 mA @ 12 VDC (Noise indicator set to “Off”)
Current Consumption (alarm)
2 mA @ 12 VDC (Noise indicator set to “Off”)
Voltage Ripple
100Hz,
≤
10% of nominal voltage
Step Change
Unom +/- 25%
Slow Change of Supply Voltage
Unom +/- 25%
Warm-up Time
< 5sec
Sensitivity
Adjustable Sensitivity
4 levels by DIP Switches
Reduced Sensitivity (Maintenance, Service) Input
Active low (terminal 9) < 0.6 VDC
Detection Radius (Thermal Tools) on Concrete
(K350)
5 m (16.4 ft)
Detection Radius (Thermal Tools) on Steel
5 m (16.4 ft)
Alarm Outputs

Solid State Relay SPDT (Change Over)
30 VDC / 100 mA / typical Ri=25
Ω

Transistor Open Collector
Active low during alarm / Ri=1.38 k
Ω

Alarm Hold Time
Approx. 2.5 sec
Sabotage Protection

Pry-off and Cover Switch

30 VDC / 100 mA
Low Supply Voltage Alarm *
< 6.5 VDC
Temperature Alarm *
+85°C ± 5°C (+185°F ± 41°C)
Internal Functional Alarm*
Stainless steel drill shield
* Sabotage and fault functions 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
Sensitivity 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)
Operation Temperature
-40°C ~ +70°C (-40°F ~ +158°F)
Storage Temperature
-50°C ~ +70°C (-58°F ~ +158°F)
Environmental Class (VdS)
III
Housing Protection Category
IP43 IK04
Housing

Dimensions (H x W x D)
80 mm x 60 mm x 21 mm (3.15 x 2.36 x 0.83 in.)
Chassis and Cover
Die-cast metal
Color
RAL7035 (light grey)
Weight
0.228kg (8.04 oz)
*Specifications are subject to change without notice.






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© 2010 Honeywell International Inc.
http://www.honeywell.com/security

© 2010 Honeywell International Inc. All rights reserved. No part of this publication may be reproduced by any means without wri
tten permission from
Honeywell. The information in this publication is believed to be accurate in all respects. However, Honeywell cannot assume res
ponsibility for any
consequences resulting from the use thereof. The information contained herein is subject to change without notice. Revisions or
new editions to this
publication may be issued to incorporate such changes.