Intelbras IVP 4000 SMART User guide

Type
User guide

Intelbras IVP 4000 SMART is a passive infrared sensor with a 115° detection angle and a 12-meter range. It features two sensitivity levels and two operating modes: Intelligent Continuous and Economical. The sensor has a built-in temperature sensor to reduce false triggers and is powered by a 3V Lithium CR123A battery. It also has a low battery sensor and is easy to install.

Intelbras IVP 4000 SMART is a passive infrared sensor with a 115° detection angle and a 12-meter range. It features two sensitivity levels and two operating modes: Intelligent Continuous and Economical. The sensor has a built-in temperature sensor to reduce false triggers and is powered by a 3V Lithium CR123A battery. It also has a low battery sensor and is easy to install.

User manual
IVP 4000 smart
English
IVP 4000 smart
Passive infrared sensor
Congratulations, you have just purchased a product with Intelbras quality and safety.
The passive infrared sensor IVP 4000 smart was developed by Intelbras with 100% digital
technology. The sensor has an integrated Temperature Sensor to offer the same detection
sensitivity in different environments (from -10 to +50°) reducing the risk of false triggers,
DIGITAL technology and SMD mounting, and can be installed in most devices on the market that
work on the same frequency.
Care and safety
» LGPD – Data processing by Intelbras: Intelbras does not access, transfer, capture or carry out any type of processing of
personal data of this product.
» Follow all the instructions in the manual to assemble and install the product;
» Fix the sensor on stable surfaces, where there are no vibrations;
» This sensor is designed for an indoor environment;
Externo
Interno Semiaberto
External
Internal Semi-open
» Do not use the sensor in areas with sudden changes in temperature, such as around air conditioners and heaters, fans,
refrigerators and ovens. Do not expose the sensor to direct or reected sunlight;
» Do not touch the surface of the infrared sensor (PIR), if necessary, use a cleaning cloth;
» Do not place objects in front of the sensor. To ensure the detection area, avoid curtains, screens, screens or any object
that may interfere with your coverage area;
» The wireless communication technology, when exposed to environments with high power irradiation, can suffer inter-
ference and see its performance affected. Example: locations close to television towers, AM/FM radio stations, amateur
radio stations, routers, etc.;
» The maximum recommended installation height is 2.2 m, do not overhang;
» The sensor must be installed where a possible intruder can be easily detected, and then decir, where it performs trans-
verse movements to the detection steps (see the following gure).
X
Obs.: before starting the installation, it is necessary to dene the height where the sensor will be placed, which can vary from
2.0 m to 2.2 m.
Scan
12
10
8
6
4
2
0
2
4
6
8
10
12
115º
aicnâtsiD (m)
Upper view
Detection area
1.2 4 6 8 10 12m
1.8 ~2.20m
2.0 ~ 2.20 m
Side view
Summary
1. Technical specications 6
2. Characteristics 6
3. Product 6
4. Sensor aperture 7
5. Sensor stabilization 7
6. IVP 4000 SMART sensor registration 7
7. Installation 8
8. Trial period 9
9. Test 9
10. Conguring the IVP 4000 Smart sensor (for boards in version 4410030/4 and rmware 2.0.0 or higher) 9
10.1. IVP 4000 smart sensor sensitivity adjustment ....................................................10
10.2. IVP 4000 smart sensor operating mode setting ...................................................10
10.3. IVP 4000 smart sensor supervision setting ......................................................11
10.4. Low battery sensor ........................................................................11
11. Conguring the IVP 4000 smart sensor (for board in version 4410030/3 and rmware 1.3.2 or earlier) 11
11.1. IVP 4000 smart sensor sensitivity adjustment ....................................................11
11.2. IVP 4000 smart sensor operating mode setting ...................................................12
11.3. IVP 4000 smart sensor monitoring setting ......................................................13
12. Battery 14
13. Homologation 14
Warranty term 15
6
1. Technical specications
Operating voltage 3Vdc
Operating current < 20 mA
Detection angle 115°
Detection range 12 m
Operating Temperature - 10 °C to + 50 °C
Transmission frequency 433,92 MHz
Detection method PIR
Battery LITHIUM CR123A 3 V
Supervision Supervised (FSK) or unsupervised (OOK)
Anti-jamming Immunity against interference from malicious signals
2. Characteristics
» Micro processed digital detection technology;
» 2 sensitivity levels;
» 2 operating modes: Intelligent Continuous (CONT) and Economical (ECO);
» Battery level sensor;
» Dual-element passive infrared;
» Power: LITHIUM battery 3 Vdc – CR123A;
» Ease of installation.
3. Product
1. Jumper (JP2) Operation mode
2. Pir sensor
3. Battery connector
4. LED trigger
5. Jumper (JP3) Superv (NO/YES)
6. Jumper (JP1) Sensitivity
7. Front cover
8. Fresnel lens
9. Basis
10. Screw installation seal
11. Base lock
7
4. Sensor aperture
To access the IVP 4000 SMART sensor board for battery change or conguration, squeeze the base latch, located at the
bottom. See image below:
SENTIDO DE SOLDA
IVP 4000 SMART
CONT
1
2
ECO
JP2
LD1
OOK/FSK
JP3
JP1
2
1
SENS
BATERIA
5. Sensor stabilization
After inserting the battery, the sensor goes into stabilization mode and the blue LED ashes for a few seconds. When
stabilization is complete, the blue LED will stop ashing.
6. IVP 4000 SMART sensor registration
To register the sensor in the alarm control panel, check the procedure in the manual of the used alarm panel and trigger a
trigger by moving in front of the sensor to complete its registration.
Note: do not register the sensor in the control panel during the stabilization time.
8
7. Installation
After identifying the best installation location, follow the recommendations:
» It must be installed at a height of 2.0 m to 2.2 m and positioned so that the intruder makes transverse movements to
the sensor’s detection radius.
» It is not recommended to install the sensor tilted upwards or downwards, as this could impair its operation.
» Make sure the sensor is securely xed and not subject to jitter in order to avoid unwanted triggers.
The IVP 4000 SMART sensor does not have an articulator, as it already has a 15° inclination angle. Therefore, for its ins-
tallation, follow the procedure:
1. Remove the front cover by pressing the base latch, as shown in the image.
SENTIDO DE SOLDA
IVP 4000 SMART
CONT
1
2
ECO
JP2
LD1
OOK/FSK
JP3
JP1
2
1
SENS
BATERIA
2. For direct-to-wall or corner-wall installation, remove the plate and break the indicated seals for the holes in the base.
Wall mounted Mounted on the corner of the wall
Seal
Seal
Seal Seal
3. After xing the base, t the front cover on the top of the base and press the bottom of the front cover so that it ts into
the base latch.
Encaixe
Aperte
Fitting
Press
9
8. Trial period
The sensor goes into test mode for 15 minutes after inserting the battery and after the stabilization time. During this period,
at any motion detection, the blue LED lights up and a trigger is generated, regardless of the settings that are applied.
9. Test
Once installed and running, walk across the area to be protected simulating a possible intrusion into the environment.
Check if the sensor is able to detect your movements during the course, through the Blue LED (triggering). Adjust the
sensitivity if necessary or reposition the sensor. Be sure to take all precautions and follow installation recommendations to
get the best operating performance from your product.
Note: if the control panel used is Intelbras, put it in test mode, this way it will not be necessary to observe the LED, as the
control panel will indicate the sensor operation through siren beeps. For more information, consult the central manual on
the website: www.intelbras.com.br.
10. Conguring the IVP 4000 Smart sensor (for boards in version
4410030/4 and rmware 2.0.0 or higher)
After the sensor is properly installed, perform the adjustments according to the information below:
SENTIDO DE SOLDA
IVP 4000 SMART
CONT
1
2
ECO
JP2
LD1
JP3
JP1
2
1
SENS
BATERIA
1/2
JP1
SENS
NAO/SIM
JP3
SUPERV
SUPERV
2/1
JP2
ECO/CONT
10
10.1. IVP 4000 smart sensor sensitivity adjustment
The SENS jumper (JP1) is used to control the detection sensitivity. With jumper JP1 in position 1 the sensor provides maxi-
mum sensitivity. With jumper JP1 in position 2 the sensor provides minimum sensitivity.
Factory default: position 2 (minimum).
10.2. IVP 4000 smart sensor operating mode setting
Through jumper ECO/CONT (JP2), select between intelligent continuous mode and economic mode. With jumper JP2 in
position 1 the sensor is in continuous intelligent mode. With jumper JP2 in position 2, the sensor is in economy mode.
Factory default: position 2 (economy).
» Intelligent Continuous Mode: the sensor takes a reading of the environment and generates a trigger for 3 movements,
after this generation of triggers the sensor goes into hibernation for 2 minutes. During this period, the indication LED is not
activated and new trips are not generated, since a notication has just been sent to the control panel. After the hibernation
time, the sensor monitors the environment until it detects 3 more events.
Após inserir a
bateria o LED
azul piscará por
alguns segundos
e não há
detecção.
A qualquer
detecção o
LED
acende e
informa a
central.
O sensor detecta (acende o
LED e gera um disparo) para
as próximas 3 detecção, após,
entra em hibernação.
15 min
Período de
estabilização
Período de
teste Modo Continuo Inteligente
Durante esse
período o LED não
acende e não são
gerados novos
disparos.
2 min
Passado o tempo de
hibernação o sensor
volta a detectar e
gerar disparos na
central, iniciando o
ciclo novamente
After inserting the
battery, the blue LED will
ash for a few seconds
and there will be no
detection.
Stabilization period Trial period Smart Continuous Mode
At any detection,
the LED comes on
and informs the
control panel.
The sensor detects (turns on the LED and
generates a trigger) for the next 3 detections,
after which it goes into suspension.
During this period, the LED
does not come on and new
shots are not generated.
After the rest time, the sensor
detects movement again, restar-
ting the cycle.
» Economy Mode: when detecting movement, it turns on the LED, triggers and goes into hibernation, remaining for
a period that can last from 30 seconds (environment with little movement) to 2 minutes (environment with a lot of
movement). During this sleep period the LED is not activated and no new triggers are generated, as a notication has
just been sent to the control panel. After the hibernation period, the sensor monitors the environment again until a new
movement is detected.
This ability to learn from the movement of the environment means that in places with a lot of movement, periodic and non-
-continuous shots are generated, in turn, saving battery life.
After inserting the battery,
the blue LED will ash for
a few seconds and there
will be no detection.
Stabilization period Trial period Economy mode
At any detection,
the LED comes on
and informs the
control panel.
After detecting the rst movement, the sensor
informs the control panel and enters the
hibernation period.
During this period, the
sensor sleeps and does not detect
movement.
After the rest time, the sensor
detects movement again, restar-
ting the cycle.
11
10.3. IVP 4000 smart sensor supervision setting
The SUPERV jumper (JP3) is used to select between supervised (FSK) or unsupervised (OOK) modes. With jumper JP3 open,
the sensor is in supervised mode (FSK). With jumper JP3 closed, the selected mode is unsupervised (OOK). The type of
supervision to be used will depend on the compatibility of the receiver with the control panel.
Factory default: unsupervised
10.4. Low battery sensor
The IVP 4000 SMART sensor controls the battery level and if it is critical (equal to or below 2.5 V), it sends the information
to the alarm control panel.
» If the sensor is congured in unsupervised mode (OOK) and the low battery signaling is enabled on the control panel,
the information is sent during tripping.
» If the sensor is congured in supervised mode (FSK), low battery reporting is done during supervision and triggering.
Note: consult the alarm control manual to verify compatibility with low battery signaling and supervision.
Use only quality batteries with the correct size for the device, as the expected battery life can be inuenced by the number
of activations, weather conditions and conguration mode. Battery model must be CR123A 3V, one (1) battery per sensor
is used.
11. Conguring the IVP 4000 smart sensor (for board in version
4410030/3 and rmware 1.3.2 or earlier)
11.1. IVP 4000 smart sensor sensitivity adjustment
The SENS jumper (JP1) is used to control the detection sensitivity. With jumper JP1 in position 1 the sensor provides maxi-
mum sensitivity. With jumper JP1 in position 2 the sensor provides minimum sensitivity.
Factory default: position 1.
12
11.2. IVP 4000 smart sensor operating mode setting
Through jumper ECO/CONT (JP2), select between intelligent continuous mode and economic mode.
Factory default: economy mode.
With jumper JP2 in position 2 (ECO), the sensor will operate in economic mode, working as follows: after powering up,
the sensor will work continuously for 30 minutes so that the installer can make the sensor adjustments. After this time, the
sensor enters the economy mode.
» Economy mode operation: the sensor will detect and transmit 1 (once) time to the alarm center, after this trigger, the
sensor enters economy mode (low consumption mode without detection). In this mode, the sensor will detect again and
transmit to the alarm center only after 2 (two) minutes without movement in the environment. After 2 (two) minutes, the
sensor will be able to detect and transmit the event to the alarm center. For a better understanding of Economy mode,
observe the timeline below.
Economy mode
Time the sensor stays on
Does not
detect
Continuous
mode
Stabilization
mode
After inserting the battery, the
sensor is in destabilization mode
and the LED ashes.
Note: do not register the sensor
on the control panel during
this period, wait 50 seconds for
the sensor to enter continuous
mode.
In this period of 2
minutes, if there is
movement in the place,
the sensor waits for the
last movement to start
counting the 2 minutes.
In this mode, the sensor de-
tects the rst movement and
generates the trip, however
it goes into hibernation and
detects again after 2 min wi-
thout movement in the place,
during the hibernation period
the LED does not light up.
After 2 minutes of the last
movement of the location,
the sensor detects again
and generates the trip on
the control panel.
In this mode, any
detection LED lights
up and activates.
With the jumper JP2 in position 1 (CONT) the sensor will work in the CONT (Intelligent Continuous) mode, operating in
the following way: After powering on the sensor will work continuously for 30 minutes so that the installer can do all the
sensor settings.
13
After this tempo or sensor enters the intelligent continuous mode.
» Intelligent continuous mode operation: the sensor will be able to transmit at 3 consecutive shots, after the LAST
shot, or the sensor enters HIBERNAÇÃO mode (low consumption mode without transmission to the alarm center) for 2
(two) minutes. The sensor will only detect and transmit a trip after 2 (two) minutes without ambient movement. After 2
(two) minutes the sensor will be able to transmit up to 3 consecutive shots within an interval of 135 seconds in the event
of movement. After 3 shots or an interval of 135 seconds, the sensor will enter the Hibernation period, or it says, it needs
to be again two minutes without movement to be able to detect and transmit a shot. During this hibernation period,
the sensor will not transmit to the alarm center, so the LED will light up indicating that the sensor is detecting normally.
For a better understanding of the intelligent continuous mode, see the time line below:
Smart continuous mode
Time the sensor stays on
No detecta
Continuous
mode
Stabilization
mode
After inserting the battery, the
sensor is in destabilization mode
and the LED ashes.
Note: do not register the sensor
on the control panel during
this period, wait 50 seconds for
the sensor to enter continuous
mode.
In this mode, the sensor
can wake up and
transmit up to 3 times
in a maximum interval
of 135 seconds before
going into sleep mode.
In the hibernation period,
only the LED lights up,
indicating that the sensor is
detecting normally. In this
mode, the sensor needs to
remain 2 minutes without
detecting movement to
trigger again and transmit to
the alarm center.
After 2 minutes of the last
movement of the location,
the sensor detects again
and generates the trip on
the control panel.
In this mode, any
detection LED lights
up and activates.
11.3. IVP 4000 smart sensor monitoring setting
» For board version 4410030/2 or 4410030/3: to change the modulation from OOK to FSK, just remove the battery
from the sensor, open the jumper OOK/FSK (JP3) and then replace the battery in its original position. Feito isso o sensor
will start to operate in FSK mode. Changing the FKS mode to OOK (factory default) is also simple, just remove the battery
from the sensor, press the OOK/FSK (JP3) jumper terminals again and replace the battery in its original position. Feito
isso o sensor will re-operate in OOK mode.
» For board version 4410030/1: to change the modulation from OOK to FSK, just remove the battery from the sensor,
cut the strip (FSK) indicated on the board by a small mushroom (gure A) and then replace the battery in its original
position. Feito isso o sensor will start to operate in FSK mode. Changing the FSK mode to OOK (factory default), is also
simple, just remove the battery from the sensor, reattach the two pads of the FSK strip indicated on the mushroom plate,
replace the battery in its original position. Feito isso o sensor will re-operate in OOK mode.
Note: to join the two pads, just put a drop of solder between them.
14
12. Battery
Use only quality batteries, with the correct size for the device. The battery model must be CR123A, using one (1) battery per
sensor.
We recommend replacing batteries with the same brand and industrial model as purchased from factory products.
This product has an internal battery. After their useful life, the batteries must be delivered to an authorized Intelbras technical
assistance department or directly disposed of in an environmentally appropriate manner, avoiding environmental and health
impacts. If you prefer, the battery, as well as other unused Intelbras brand electronics, can be discarded at any Green Eletron
collection point (electronic waste manager with which we are associated). If you have any questions about the reverse logistics
process, please contact us by telephone (48) 2106-0006 or 0800 704 2767 (Monday to Friday from 8am to 8pm and Saturdays
from 8am to 6pm) or via email -mail support@intelbras.com.br.
13. Homologation
0912-14-0160
This equipment is not intended for protection against harmful interference and may not cause interference in duly
authorized systems.
This is a product approved by Anatel, the approval number can be found on the product label, for inquiries access the site:
https://www.gov.br/anatel/pt-br.
15
Warranty term
It is established that this warranty is granted upon the following conditions:
Client’s name:
Client’s signature:
Invoice number:
Date of purchase:
Model: Serial number:
Retailer:
1. All the parts, pieces and components of the product are guaranteed against possible manufacturing defects, which may
arise, for the term of 1 (one) year, with a term of 3 (three) months’ legal warranty plus 9 (nine) months’ contractual
warranty –, counting from the date of purchase of the product by the Consumer, as appears in the product purchase bill
of sale, which is an integral part of this Term throughout the domestic territory. This contractual warranty includes the free
exchange of parts, pieces and components which have a manufacturing defect, including the expenses with labor used in
this repair. If there is no manufacturing defect, but defect(s) arising from misuse, the Consumer shall bear these expenses.
2. The installation of the product shall be executed in accordance with the Product Manual and/or Installation Guide. If your
product requires the installation and conguration by a qualied technician, seek a suitable specialized professional, the
costs of these services not being included in the product amount.
3. Having perceived the defect, the Consumer shall immediately contact the nearest Authorized Service which appears in
the report offered by the manufacturer – they are the only ones authorized to examine and remedy the defect during the
warranty term foreseen herein. If this is not respected, this warranty shall lose its validity, as it shall be characterized as
product infringement.
4. If the Consumer requests home service, it shall contact the nearest Authorized Service to inquire about the technical visit
rate. If it is necessary to remove the product, the ensuing expenses, such as those of transportation and insurance of the
taking and return of the product, shall be the Consumer’s responsibility.
5. The warranty shall lose its validity totally in the occurrence of any of the following cases: a) if the defect is not one of manu-
facture, but is caused by the Consumer or by third parties foreign to the manufacturer; b) if the damage to the product arises
from accidents, disasters, agents of nature (lightning, oods, landslides, etc.), humidity, voltage in the electrical network
(excess voltage caused by accidents or excessive uctuations in the network), installation/use in disagreement with the
user’s manual or arising from natural wear of the parts, pieces and components; c) if the product has undergone effects of a
chemical, electromagnetic, electrical or animal (insects, etc.) nature; d) if the serial number of the product has been falsied
or erased; e) if the appliance has been infringed.
6. This warranty does not cover loss of data; therefore, it is advisable that if it is the case of the product, the Consumer makes
a backup regularly of the data which appears in the product.
7. Intelbras is not responsible for the installation of this product, or for possible attempts at fraud and/or sabotage in its
products. Maintain the updates of the software and applications used up-to-date, if it is the case, as well as the network
protection required for defense against hackers. The equipment is guaranteed against defects in its usual conditions of use,
it being important to bear in mind that, as it is electronic equipment, it Is not free of fraud and scams which may interfere
with its correct functioning.
These being the conditions of this complementary Warranty Term, Intelbras S/A reserves the right to alter the general,
technical and esthetic features of its products without prior notice.
All the images of this manual are illustrative.
Product benefiting from the Legislation of Informatics.
02.23
Made in Brazil
Customer Support: (48) 2106 0006
Forum: forum.intelbras.com.br
Support via chat: chat.intelbras.com.br
Support via e-mail: suporte@intelbras.com.br
Customer Service: 0800 7042767
Where to buy? Who installs it? 0800 7245115
Produced by: Intelbras S/A – Indústria de Telecomunicação Eletrônica Brasileira
Rodovia BR 459, km 124, nº 1325 – Distrito Industrial – Santa Rita do Sapucaí/MG – 37540-000
CNPJ 82.901.000/0016-03 – www.intelbras.com.br
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Intelbras IVP 4000 SMART User guide

Type
User guide

Intelbras IVP 4000 SMART is a passive infrared sensor with a 115° detection angle and a 12-meter range. It features two sensitivity levels and two operating modes: Intelligent Continuous and Economical. The sensor has a built-in temperature sensor to reduce false triggers and is powered by a 3V Lithium CR123A battery. It also has a low battery sensor and is easy to install.

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