Ex-Or LS3260F, LS3260MBSM, LS3283RSM, LS3270F, LS3260SM Installation Instructions

Installation Instructions

LightSpot HD QuickLink Bus PIR Sensors

Only suitably qualified personnel should install this equipment

Part Number

LS3260F

Flush

Mount

● ●

LS3260SM
LS3270F

● ● ●

LS3270SM
LS3283RF

● ● ● ● ●

LS3283RSM
LS3260MBF

● ●

LS3260MBSM
LS3260HBF

● ●

LS3260HBSM

50093558-001 / QuickLink Bus Sensor

Surface

Mount

Mains

Switching

Low Voltage

Office

Switch Inputs

Mid Bay

High Bay

● ●

● ● ●

● ● ● ● ●

● ●

● ●

Positioning the Sensor

Tilting

Macro

Detection

High Sensitivity Micro Detection

fig 1

Macro

Detection

The sensor should be positioned on the ceiling in the centre of the occupied
space. This product is available in three different mounting height variants;
see fig.1 and the table below. Ensure that the maximum recommended
mounting height is not exceeded.

h

Avoid mounting next to an AC unit.
For additional information on
positioning please refer to Tilt
and Lock the Sensor, overleaf.

Aspect ratio

(diameter : height)

Type

Office

Mid Bay

High Bay

Micro Detection -

High Sensitivity

(7m diameter @ 2.5m height)

2.8:1

N/A

N/A

(10m diameter @2.5m height)

(20m diameter @10m height)

(27m diameter @14m height)

The sensor is more sensitive
to movement across the beam
compared with movement
towards the centre.

Macro Detection -

Standard Sensitivity

4:1

2:1

1.9:1

Max recommended

mounting height

3.5m

12m

16m

Installing the Sensor into Ceiling Tile

73mm

Electrical Connections

Removing the Terminal Cover

Fixing to Ceiling – Standard Method

1

11 2

2

2

Adding an Extra Low Voltage Sensor Using QuickLink Bus (fig 3)

The wiring diagram below shows how to connect sensors together using the QuickLink Bus. QuickLink is a
convenient way of wiring multiple sensors so that they share information (e.g. occupancy) and are able to work
in harmony. Some sensors operate from a low voltage derived from the QuickLink bus and therefore do not
require a mains connection – this enables fast and convenient installation. At least one sensor on the QuickLink
bus must be mains-powered, then a further 3 (or fewer) low voltage sensors may be added. It is also permissible
to connect two mains powered sensors together via the QuickLink bus.

QuickLink Bus QuickLink Bus

To Next
Sensor

Fixing to Ceiling – Secure Lockring Method

Ratchet Component x4

2

1

4

Ceiling tile
thickness range
1-20mm

NOTE: To remove sensor
rotate Lockring and
pull up

Ceiling tile
thickness range
1-20mm

(Available separately, please order lockring)

1 2

Remove spring

3

Ratchet
moulding

QuickLink System (fig 4)

The diagram below shows a more sophisticated low voltage sensor added to the QuickLink bus. This sensor not only
extends the presence detection coverage as in the diagram below, but also adds the capability to control an additional
switched load (volt free relay) and provides a 3-wire ELV switch input which may be configured for two single pole
switches or a single pole two-way centre-off retractive switch e.g. MK K4900WHI.

To Next
Sensor

3

Channel S1

(Mains rated

volt free

connection)

Cable clamps can
be reversed to
reduce aperture

Channel D0
(QuickLink
connection)

ELV
switch input

Switch

SW1

Ch D0

Data & Control

LS3043DR

IEC 60669-2-1

Digital Dimming

+

_

230VAC 15%

Ch D1

Ch S1

50-60Hz

SW L NLout

SWITCHING

LUMINAIRES

DIGITAL

DIMMING

LOAD

DALI

DIMMING

LOAD

Channel S1 Channel D1 Channel D0

Ch D0

Loop in

Data & Control

Low voltage

D D

LS3260

Loop Out

IEC 60669-2-1

Ch D0

SW L NLout

Ch S1

Data & Control

LS3043DR

Digital Dimming

+

_

230VAC 15%

50-60Hz

IEC 60669-2-1

Ch D1

Ch D0

DD

Ch D0

D D

Loop in

Ch D0

DD

Data & Control

Mains rated

volt Free

Loop Out

ELV Switch Input

A B

com

Ch S1

Low voltage LS3283

A

Switch
SW2

B

E
N

L

Supply

Switch

SW1

SWITCHED

LOAD No.1

DIGITAL

DIMMING

LOAD

DALI

DIMMING

LOAD

SWITCHED

LOAD No.2

E
N

L

Supply

fig 4fig 2 fig 3

Fixing to Ceiling – Surface Mounting (optional)

Product variants with “SM” suffix on the part number are supplied with the surface fitting kit
as standard. The surface mount kit is available as a separate part, please order Surfmt.
The sensor may be mounted to any suitable surface, but is most commonly fixed to a
conduit stop-end
(fig 5 set) (BESA)
box or bushed to
trunking.

See fig 2 for
connections

Uninstalling and Repositioning

Insert a flat headed screwdriver into the slot as shown and twist the collar anti-clockwise to release,
fig 6

. To separate the sensor from the surface mount casing, push a flat headed screwdriver onto the

tab via the inside void of the casing and pull the sensor upwards,

Drill point for optional
secure locking with
a 3mm tamperproof
screw (not supplied).

Tab

fig 6 fig 7fig 5

fig 7

a x2

.

Eight segments on the collar

2

1

8

7

allow up to four different

3

rotational positions for the

4

sensor, when inserting
tabs (a) into slots (1-8).

5

See positioning the sensor.

6

NOTE: Setting the
correct position is
important when
using products with
tilting lenses

Tilt and Lock the Sensor

Some products feature the ability to tilt the sensor
(before fitting) by up to 10° in 2° increments,
in order to extend the range in one direction.
This may be useful in cases where the ideal
mounting location is not available. The incresed
range is indicated in fig 8.

NOTE: Do not place in
a position where
access is limited

fig 8

increased

range

Office

Radius extension at full tiltType

up to 67%

WalkTesting / Lens Masking

In order to verify correct installation, walk-testing is recommended.
An infrared commissioning tool will be required to put the detector(s)
into walk-test mode. Two infrared commissioning tools are available:
QuickSet and QuickSet Pro (Sold separately).

QuickSet

fig 9

Two lens masks are provided which may be used to restrict the viewable
footprint of the sensor e.g. unwanted detection through a doorway. Cut the
mask segment(s) as desired and install by pushing the mask lip between the
bezel and the lens on the sensor as shown in fig 9.

IMPORTANT NOTES

1. A means for disconnection must be incorporated in the fixed wiring in
accordance with the current wiring regulations.

2. Dimming and QuickLink terminals have only basic isolation from mains
and therefore should be wired in mains-rated cable and treated with
the same respect as mains with regard to wiring practice.

3. This equipment is designed to switch lights no more frequently than
normal manual operation. However, manufacturers of some particular
lighting types (e.g. '2D' luminaires) may specify a maximum number of
switching cycles and/or a minimum on-time in order to achieve a
predicted lamp life. Please check with the manufacturer of the
luminaires to ensure that they are compatible with automatic controls
in this respect.

QuickSet Pro

Follow the instructions provided with the selected commissioning tool. While the sensor is in walk-test mode,
the LEDs on the sensors are automatically enabled and it will turn on the lighting for only a few seconds
each time occupancy is detected.

1

Stand out of the sensor’s viewable footprint or remain motionless within the
viewable footprint and wait for the lights to go out.

2

5

secs

Wait a further 5 seconds for the sensor to stabilise then make a movement,
the lights should come back on. Observe that the detection / non-detection
is as expected.

NOTE: After 5 minutes, the sensor will automatically
exit walk-test mode without requiring any action
from the operator.

This range of products features a rich set of adjustable parameters that may be
programmed via the hand-held infrared commissioning tools in order to create
a sophisticated lighting control installation. There are no physical switches or
potentiometers on the product.

Out of Box Behaviour

Prior to commissioning, the default settings for each channel of the sensor
will be as follows:

Time Delay: 20 minutes

Photocell Setting: Always turn lights on when occupied

Dimming Level: 100%

Occupancy Mode: Automatic (lights Auto ON, Auto OFF)

Movement Sensitivity: Maximum

Digital Ballast Type DALI

NOTE: Please go to www.ex-or.com for a complete list of
programmable parameters.

4. In order to achieve satisfactory light level regulating operation, a sensor
must observe a substantially greater proportion of artificial light from the
luminaire(s) under its control than from neighbouring luminaires not under
its control. This is particularly important when planning the installed layout
of linear luminaires that have an integral detector positioned at one end.

5. All information given in this document was correct at the time of
publication.

Technical Data

Marking

Colour

Terminal type

Terminal capacity

Recommended
cable

Maximum length

Function

Operating voltage

Power
consumption

Maximum Load
current

Permissible load
types/connections

Earth

E A B D D D DCom

Pluggable rising
cage clamp

1 x 0.5-2.5mm sq
solid or stranded

Derive from appropriate
wiring regulations

Termination
only

230VAC+/-15% 50-60Hz
Recommended circuit
protection: 16A MCB

Zero

10A (maximum
inrush 80A)

Magnetic-ballasted
fluorescent,
Compact fluorescent,
Electronic-ballasted
fluorescent,
LED (maximum
inrush 80A),
Tungsten lamps (max 6A)

TECHNICAL SUPPORT

+44 (0)1942 719229 Opt 1

Mains Rated
Volt Free

Black Green Red Red

Output Input Input Output

ELV Switch
Input

Pluggable
screwless

1 x 0.5-1.5mm sq
solid or stranded

0.75mm sq 0.75mm sq

10m 100m total system length

(ELV) 12-22VDC

Negligible

N/A N/A N/A

N/A N/A N/A

QuickLink
Loop In

Pluggable
screwless

1 x 0.5-1.5mm sq
solid or stranded

160mW (12mA) 160mW (12mA)

QuickLink
Loop Out

Pluggable
screwless

1 x 0.5-1.5mm sq
solid or stranded

per additional
device

Diagnostics

Detectable wiring faults are always indicated by the LEDs, irrespective of
whether they are enabled.

LED indication Meaning

G GG

Movement detected
Green in response to movement or not

B

Light level demand – photocell striving for
1 blue flash every 2 seconds more light in order to reach set-point

B B B B

A manual switch is being activated
2 blue flashes every 2 seconds

R R

100hr lamp burn-in is in progress – this
Long red flash every 2 seconds means dimming will not be permitted
for the duration

R R

Channel D0 error – e.g.
2 red flashes every 2 seconds 1. Too many QuickLink mains-powered
devices connected together, or

2. Dimming terminals connected
somewhere they shouldn’t be

R R R

Channel D0 error – e.g.
3 red flashes every 2 seconds 1. Possible short circuit, or

2. Too many luminaires, or

3. Too many QuickLink low voltage
sensors, or

4. QuickLink mains-powered
sensors connected together with
wrong polarity

Ex-Or

Novar ED&S Limited
Haydock Lane, Haydock
Merseyside WA11 9UJ
Tel: +44 (0)1942 719229
Web: www.ex-or.com

B

R R

R R R

At the end of their useful life the
packaging and product should
be disposed of via a suitable
recycling centre.
Do not dispose of with normal
household waste. Do not burn.