SA-P8 sounder
Sygnalizator akustyczny SA-P8 - Image 2
Sygnalizator akustyczny SA-P8 - Image 3
Sygnalizator akustyczny SA-P8 - Image 4
Sygnalizator akustyczny SA-P8 - Image 5

SA-P8 sounder

Categories:
Datasheet
W2 - SA-P8 datasheet
Comparation table SA-K5N / SA-P8 (PL)
W2 - Maximum number of P8 series fire alarm devices synchronizing within one network

The SA-P8 sounder is intended for signalling of fire inside buildings.

Cooperating products:

Description

Notice Documents to be downloaded after logging in.

SA-P8 SOUNDER HOLDS DOCUMENTS ISSUED BY CNBOP-PIB:

  • CERTIFICATE CPR NO. 1438-CPR-0883
  • CERTIFICATE OF APPROVAL NO. 4839/2023

Use

The SA-P8 sounder is intended for signalling of fire inside buildings.

Construction

The signalling device is equipped with housing made of non-combustible material, enclosing electronic components. Acoustic signals are generated by means of piezoceramic transducer, located inside the housing. The cover of SA-P8 sounders holds supply block, WSD switch block and micro switch, by means of which operating mode of the signalling device, as well as acoustic signal type can be selected.

Operating design

After connecting the supply voltage, the SA-P8 sounder generates an acoustic signal in accordance with the current settings. The acoustic signal is generated by a piezoceramic transducer. The SA-P8 sounder enables the creation of a network of synchronously operating sounders.

Varieties

The SA-P8 sounder is available in 2 varieties.

Varieties
 Description
SA-P8/C sounder in red housing
SA-P8/B sounder in white housing

Opening

To open the alarm device you should: screw out the blocking screw, twist the shade to the left while holding the base, then move apart the shade and the base.

Closing

To close the alarm device adjust the markers, then assemble the device and twist it to the direction marked with an arrow (sequence shown in the drawing). After closing, screw in the blocking screw.

click to enlarge

Assembly recommendations:

The SA-P8 sounders should be connected to the FAS installation through junction boxes with the required class of maintaining electrical functions (recommended PIP-3AN). If there is no need to use the synchronization option of the SO-P8 VADs, it is also possible to mount them through the PIP-1AN installation box, observing the following information on the mounting method. If mounting directly on the box is not required, the PIP-2AN/0.375A box can be used to connect the device.

The box should be mounted to the substrate/wall with the required fire resistance. If, for aesthetic reasons, it is not possible to mount the signaling device directly on the PIP box, it is permissible to mount the signaling device to the base that does not have the required fire resistance, while the PIP junction box must be mounted on the base with the required fire resistance (e.g. a situation in which the box PIP is mounted to the ceiling with E90 resistance, while the SA-P8 sounder is mounted in the suspended ceiling). Detailed guidelines for the installation of PIP installation boxes are included in the National Technical Assessment CNBOP-PIB-KOT-2019/2024/0113-3704 (1st edition).

The mounting cover OM-1 is intended for installation in a suspended ceiling. This procedure allows the device to be hidden in the suspended ceiling, which increases the aesthetic value of the installation.

If there is a need to protect the signaling device against mechanical damage at the installation site, the OZ-50-3 protective cover can be used.

Technical data

Type sounder
Supply voltage 16-32,5 V DC
Current consumption in off state 0 mA
Current consumption in on state <40 mA*
Power consumption in on state <0,96 W*
Sound output >100 dB*
Flash frequency not applicable
Flash time not applicable
Time between flashes not applicable
Device category not applicable
Device type type A
Working temperature from -10°C to +55°C
IP protection degree IP33
IK protection degree IK07
Conductor cross-section 2,5 mm2
Dimensions Ø114×88 mm
Weight ~235 g

*for default settings
(supply voltage Uz=24V DC, fire service signal, potentiometer maximum, optional gradual volume increasing – ON)

Additional

Control

Connecting the supply voltage to the appropriate terminals triggers the acoustic alarm signal.

click to enlarge

 

Number of microswitch Mark Function
1 M/S Operating mode selection MASTER (ON) / SLAVE (OFF)
2 S0 Sound pattern selection
3 S1 Sound pattern selection
4 S2 Sound pattern selection
5 S3 Sound pattern selection
6 VR Optional gradual volume increasing (ON)

Control – devices network

SA-P8 sounder can work in a network. Devices that are to be synchronized with each other should be connected with an additional conductor marked as S. Only one device in the network should be set as MASTER, the rest as SLAVE.

The figure below shows an example of a synchronization scheme.

Activation of the WSD-1 switch connected to the MASTER device silences the entire line of devices operating in the network. Activation of the switch connected to the device operating in the SLAVE mode turns off the acoustic part only in the device to which the WSD-1 is connected.

Notice Adjusting the sound level by means of a potentiometer works locally and applies to the signaling device in which the setting is changed.

Notice SA-P8 devices can also be synchronized with other signaling devices produced by W2:

  • SA-K5N / acoustic part
  • SA-K7N, SAOZ-Pk2, SAO-P8 / acoustic part
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FAQ

SA-P8 sounder / Find out the most frequently asked questions and answers about this product

Your questions, our answers: Whether you are a new user or a regular customer, our answer database contains a wealth of information to help you better understand our products. Discover the answers curated by our experts.

Where can I find a description of the available sound patterns (sirens)?

Sound patterns (sirens) are described in the Operation and Maintenance Documentation (O&M) and the product leaflet. Additionally, sound patterns are also included in the Certificate of Approval issued for the product by CNBOP-PIB.

What effect does the cross-section of the wires have on voltage drops?

The larger the cross-section of the wires, the lower its resistance and, consequently, the lower the voltage drops. For example, the HDGs 1x2x1.5 mm2 cable has a core resistance of R = 12.1 Ω/km, while the HTKSH 1x2x2.5 mm2 cable has a core resistance of 7.41 Ω/km. In order to calculate the voltage drop, the length of the line should be taken into account and a safety factor related to the length of the wire that may be caught in fire (increase in its resistance) should be assumed.

What effect does the attenuation of partitions have on the alarm signal level?

Obstacles such as doors affect the level of the alarm effect. For other doors, an attenuation of approximately 20 dB is acceptable, and for fire doors even approximately 30 dB. If it is not practical to use it, it is necessary to ensure the sound level in places where the siren is located behind more than one door.

What is the effect of temperature on the resistance of wires?

The resistance of the wires changes as a function of temperature. According to the ISO curve, the temperature of the PH30 cable operating in fire conditions will be 822°C after 30 minutes and its resistance will increase 4.5x! The temperature of the PH90 cable after 90 minutes will be approximately 955°C and its resistance will increase by almost 5.3x! This should be taken into account when designing the installation and appropriate safety factors should be adopted. The resistance of the cable affects voltage drops and, consequently, whether the device will operate in hazardous conditions or not. Voltage drops can be compensated by increasing the cross-section of the conductors.

How to read and what does the IK protection degree mean?

The PN-EN 50102 (PN-EN 62262) standard provides a classification of the degrees of protection provided by enclosures against external mechanical shocks for devices with a rated voltage not exceeding 72.5 kV. The definitions of the degrees of protection and their markings, the requirements for each marking and a description of the tests performed to check whether the housing meets the requirements of the standard are provided.

The standard presents a classification from 0 to IK10, where IK0 means no protection and IK10 means resistance to an impact with an energy of 20J (the impact of a steel hammer or a ball weighing 5 kg falling on the housing from a height of 40 cm).

Did you know that:

A change to the above has recently been published. standard, which introduces, among other things, a new protection level IK11 (resistance to a 50J impact energy!).

How to read and what does the IP protection degree mean?

Degrees of protection provided by enclosures (IP code) is the full name of the PN-EN 60529 standard. It contains a classification of degrees of protection provided by enclosures of electrical devices with a rated voltage up to 72.5 kV.

The code consists of:

  • first characteristic digit (against the ingress of foreign solids)
  • second characteristic digit (against water ingress)
  • additional letter (before access to hazardous parts)
  • supplementary letter (supplementary information)

For example, according to EN 54-3, EN 54-23 standards, external fire alarms (type B) must provide IP33C protection. This means that the housing provides protection against:

  • access to hazardous parts with a tool (2.5 mm probe)
  • foreign bodies with a diameter of 2.5 mm and larger
  • water spraying (at any angle up to 60° from the vertical)

How to calculate the required battery capacity for the power supply?

The required capacity K [Ah] of the battery(s) can be calculated from the formula:

K=1,25*(I1*t1+I2*t2)

Where:

K – required capacity, in ampere-hours (Ah)

t1 – support time, in hours (h)

t2 – alarm time, in hours (h)

I1 – total current consumed by the fire alarm system in the event of failure of the energy source, in amperes (A)

I2 – total current consumed by the fire alarm system when alarming, in amperes (A)

Is it possible to build a network of synchronized devices of different types?

It is possible to build a network consisting of following devices: SA-K7N, SA-K5N, SAOZ-Pk2. These signaling devices have the same synchronization mechanism which allows creating networks (synchronization).

What does the IP21C and IP33C code mean?

For type A signaling devices, the manufacturer should ensure a minimum degree of 21C (in accordance with EN 60529: 1991. Degrees of protection provided by enclosures (IP code) - this standard specifies "... a system of classification of degrees of protection, marked with a code, provided by enclosures of electrical devices with rated voltage not more than 72.5 kV ... "), which is synonymous with the fact that the device itself is protected against access by foreign bodies with a diameter greater than or equal to 12.5 mm and against the harmful effects of dripping water penetrating the housing of the device. For the user himself, this is a protection against accessing hazardous parts with fingers.

On the other hand, B type devices should have a degree of protection of at least 33C. According to the standard referred to above, this means protection against the access of foreign objects with a diameter greater than or equal to 2.5 mm and against the harmful effects of sprayed water penetrating the housing of the device. The user is protected against access to hazardous parts, even when using a tool. However, it has to be said that the product should be provided with appropriate measures to restrict access to its interior to remove a part or the entire device, as well as change the mode of operation, e.g. through special tools, codes, hidden screws, seals.

What does the category (type A, type B) means?

The EN 54-23: 2010 harmonized standard introduces the division into type A (for indoor applications) and type B (for outdoor applications) VADs. This is important from the point of view of the requirements that the device must meet. In short, devices classified as type B must undergo more stringent tests, e.g. they must have a higher degree of IP protection and undergo additional tests that are not required for type A devices. All this means that they can be used both outside and inside buildings where, for example, prolonged high humidity may occur and / or be exposed to high temperatures.

Do fire alarm devices have protection against reversal of supply voltage polarity?

Tak, sygnalizatory pożarowe posiadają zabezpieczenie przed zmianą polaryzacji napięcia zasilającego.

Is it possible to turn off the sound in sounders?

Yes, it is possible. In order to switch off sound and remain an optical signal on, you should use the WSD-1 switch.

Do fire alarm devices have a built-in power supply or do they need to be powered from the control panel?

Sygnalizatory pożarowe nie posiadają wbudowanego zasilacza, konieczne jest zapewnienie zewnętrznego źródła zasilania. Do zacisków sygnalizatora powinno być doprowadzone napięcie zgodnie z dokumentacją producenta.

Can a fire alarm signal inform about other events?

The fire alarm signal may only be used when the desired reaction of the recipient is consistent with a fire hazard situation. In other cases, the fire alarm signal should not be used unless it is broadcast in conjunction with other information.

What are the requirements for the alarm signal pattern?

The alarm signal for the purpose of informing about fire danger should be the same in all parts of the building.

On a campus or in a place with multiple buildings, the alarm sound pattern should be the same for all buildings.

Signals from alarm devices must be different from operational signals

What sound level should the sounder provide?

The sound level should be sufficient for the acoustic alarm signal to be clearly audible above the general noise level (interfering sound level). Additionally, the signal level should not exceed 118 dB(A) in any place where people may be present.

The minimum sound level of the alarm signal should be at least 65 dB(A) or 10 dB(A) above the level of disturbing sounds lasting longer than 30 s (whichever is greater).

If the alarm signal should wake up sleeping people (rest areas), the minimum sound level at the ear level of sleeping people should be at least 75 dB(A).

Minimum levels should be achieved wherever an alarm signal should be audible.

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