Pulsar PSBSEP04124 - v1.1 Operating instructions

Brand: Pulsar

Model: PSBSEP04124 - v1.1

Type: Operating instructions

Pulsar PSBSEP04124 - v1.1 is a switch mode buffer power supply unit designed for CCTV systems requiring stabilized voltage. It features 4 independently adjustable delivery channels for uninterruptible power supply in the range of 12 ÷ 18VDC/4x1A, with a high efficiency of 70%. It also includes a battery housing for 2x7Ah/12V batteries, providing backup power during mains power loss.

PSBSEP04124

v.1.1

PSBSEP 12-18V/4x1A/2x7Ah/SEP

Switch mode buffer power supply unit for CCTV.

EN*

Edition: 3 from 12.12.2013

Supercedes the edition: 2 from 16.09.2013

PSBSEP04124 www.pulsar.pl

Features:

• 4 independently adjustable delivery channels for

uninterruptible power supply in the range of

12 ÷ 18VDC/4x1A

• battery housing: 2x7Ah/12V

• 4 overvoltage protection OVP circuits, separate for

each channel 15V/18V/21V, jumper selectable

• supply voltage 230VAC

• high efficiency 70%

• separate battery charging circuit independent of preset

output voltages

• battery charging and maintenance control

• deep discharge battery protection (UVP)

• battery output protection against short circuit and

reverse connection

• battery charging current 0,2A/0,5A, jumper selectable

• START battery activation button

• LED optical indication

• FAC technical output indicating AC power

loss

• FLB technical output indicating low battery

voltage

• FPS technical output indicating PSU failure

• the possibility of installing 4-channel

MSEP412 or MSEP412V video module to

Yap type cables

• protections:

• SCP short-circuit protection

• OLP overload protection

• OVP overvoltage protection

• Surge protection

• Antisabotage protection

• warranty – 5 years from the production date

CONTENTS:

1. Technical description.

1.1. General description

1.2. Block diagram

1.3. Description of components and connectors of the PSU

1.4. Technical parameters

2. Installation.

2.1. Requirements

2.2. Installation procedure

3. Power supply operation indication.

3.1. Optical indication

3.2. Technical output

4. Service and operation.

4.1. Procedure in case of short-circuit of the power supply output (SCP activation)

4.2. Procedure in case of short-circuit of the BAT output or reverse battery connection

4.3. Procedure in case of overvoltage protection OVP activation

4.4. Battery operation

4.5. Maintenance

1. Technical description.

1.1. General description.

The buffer power supply is intended for uninterrupted supply of CCTV systems requiring stabilized voltage

of 12V DC (+/-15%). The PSU features 4 independently adjustable channels for power supply in the range of

4x12÷18VDC/4x1A. This enables compensation of voltage drops in complex CCTV systems. The current efficiency

of the PSU is:

1. Output current 4 x 1A + 0,2A battery charging

2. Output current 4 x 1A + 0,5A battery charging

Total current of the receivers + battery is max. 4,5A.

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Diagram 1.

The maximum output current is set to 4x1A at the

output voltage of 12V. If the output voltage is higher

than 12V, reduce the power consumption by the

receivers according to the diagram 1.

In case of mains power loss, the unit will instantly switch to battery operation. The PSU is enclosed in a metal

casing (color: RAL 9003) with battery housing for two 7Ah/12V batteries. The enclosure is fitted with a

microswitch indicating door opening (at the front). The enclosure of the PSU design allows mounting 4-channel

MSEP412 or MSEP412V video module, fitted with Yap cable connection sockets (coaxial cable integrated with

the power supply).

1.2. Block diagram.

Fig. 1. Block diagram of the PSU.

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1.3. The description of components and connectors of the PSU.

Table 1. The description of components of the PSU.

Component

No.

[Fig. 2]

Description

[1]

BAT

; jumpers- battery charging current configuration

• I

BAT

= Ibat =0,2 A

• I

BAT

= Ibat =0,5 A

Description: jumper on, jumper off

[2] START button (running the PSU from the battery)

[3] F

BAT

fuse in the battery circuit

[4] LB –LED indicating battery charging

[5]

LED optical indication:

AUX1 ÷ AUX4 – LED indicating voltage at individual outputs

FPS –LED indicating PSU failure

FLB –LED indicating low battery level

[6]

Connectors:

+BAT- DC power supply output of the battery

(+BAT= red, -BAT = black)

+AUX1- ÷ +AUX4- - DC power supply output

(+AUX= +U, -AUX=GND)

FAC – technical output of AC power failure

- OC type (open collector)

hi-Z state= AC power loss

L state= AC power ON

- R type– relay type

FPS - technical output of the PSU status – OC type (open collector)

hi-Z state = failure

L state = correct operation

FLB – technical output indicating low battery level – OC type (open collector)

hi-Z state = failure

L state= current operation

[7]

Jumper for melting fuse/PTC selection

[8] F1, F2, F3, F4 fuses in the AUX circuits (+)

[9]

Jumper for overvoltage protection selection:

- V

OVP

=18V

- V

OVP

=15V,

- V

OVP

=21V

The protection level should be set min. 1.5 V above the output voltage.

[10]

Connector of optional, external optical indication

[11]

ADJ

÷ V4

ADJ

potentiometer, voltage regulation at the AUX1 ÷ AUX4 outputs

(12÷18VDC)

[12] AC connector – module power supply

[13] Red LED – indicating voltage at the AC input

[14]

Configuration jumpers:

BAT

; jumper - Deep discharge battery protection UVP configuration

• P

BAT

= protection function (disconnecting the batteries) OFF

• P

BAT

= protection function (disconnecting the batteries) ON

, J1, J2; jumpers - Setting the delay time for FAC network failure indication:

• J1= , J2= time lag T= 5s

• J1= , J2= time lag T= 140s

• J1=

, J2= time lag T= 17m

• J1= , J2= time lag T= 2h 20m

Description: jumper on, jumper off

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Fig. 2. The view of the Power supply PCB (Printed Circuit Board).

Fig. 3. The view of the PSU.

Table 2. Components of the PSU (see Fig. 3)

Component No.

[Fig. 3]

Description

[1]

Isolation transformer

[2] F

MAIN

fuse in the power supply circuit (230V/AC)

[3]

L-N power connector 230V/AC, Protection connector PE

[4]

Connectors for connecting the batteries: +BAT = red, - BAT = black

[5]

Printed Circuit Board (Table. 1, Fig. 2)

[6] TAMPER; microswitch (contacts) of antisabotage protection (NC)

PSBSEP04124 www.pulsar.pl

1.4 Technical parameters.

- electrical parameters (Table 3)

- mechanical parameters (Table 4)

- safety of use (Table 5)

- operation parameters (Table 6)

Electrical parameters (Table 3).

Mains supply 230 VAC (-15%/+10%)

Current consumption 0,5A@230V AC max.

Power supply frequency 50Hz

PSU’s power 60W max.

Efficiency 70%

Output voltage 4 x 12V

The adjustment range of the output

voltage

12÷18V DC

all outputs independently adjustable

Output current

4 x 1A + 0,2A battery charging or

4 x 1A + 0,5A battery charging

Rise time, fall time and maintenance time

of output voltage

2ms / 20ms / 60ms

Ripple voltage 50 mV p-p max.

Current consumption by the PSU

85 mA – battery operation

Battery charging current 0,2A/0,5A jumper selectable I

BAT

Short-circuit protection SCP

200% ÷ 250% of the PSU power - fuse current limitation (fuse

replacement required)

Overload protection OLP

110% ÷ 150% (@25ºC) of the PSU power – PTC/melting fuse

current limitation, manual restart (disconnection of the DC output

circuit required),

Overvoltage protection OVP 15V/18V/21V – independently selectable with the "OVP" jumper

for each channel

Battery circuit protection SCP and

reverse polarity connection

4A - current limitation, F

BAT

fuse (failure requires fuse

replacement)

Deep discharge battery protection UVP <20,0 V (± 5%) – disconnecting the battery terminal

Surge protection 4 x varistor

Antisabotage protection:

- TAMPER output indicating enclosure

opening

- microswitch, NC contacts (enclosure closed),

0,5A@50V DC (max.)

Optical indication of operation: YES – LEDs

Technical outputs:

- FAC; output indicating AC power failure

- FLB; output indicating low battery

voltage

- FPS; technical output of the PSU

operation status

- OC type, 50mA max. normal operation: L (0V), failure: hi-Z

(automatic return once the normal operation is restored)

- R type – relay type, 1A@ 30Vdc/50Vac max.

Delay time: app. 5s/140s/17min/2h20m (+/-5%)

- OC type, 50mA max. normal operation: L (0V), failure: hi-Z

state V

BAT

< 23V

- OC type, 50mA max. normal operation: L (0V), failure: hi-Z

state (automatic return once the normal operation is restored)

F1 ÷ F4 fuses

BAT

fuse

MAIN

fuse

F 1A /250V or PTC 1,1A

F 4A / 250V

T 1A / 250V

Mechanical parameters (Table 4).

Enclosure dimensions 345 x 322 x116 (WxHxD)

Mounting See Fig. 3

Battery housing: 2 x 7Ah/12V (SLA) max.

Net weight 5,12/5,36kg

Enclosure DC01 1mm steel plate, RAL 9003

Closing Cylindrical screw x 2 (at the front)

Terminals Outputs : Ф0,41÷1,63 (AWG 26-14)

Notes The enclosure has a 15mm distance from the mounting surface so the cables

can be led.

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Safety of use (Table 5).

Protection class PN-EN 60950-1:2004 I (first)

Protection grade PN-EN 60529: 2002 (U) IP20

Insulation electrical strength:

- between input (network) circuit and the output circuits of the PSU

(I/P-O/P)

- between input circuit and PE protection circuit (I/P-FG)

- between output circuit and PE protection circuit (O/P-FG)

3000 V/AC min.

1500 V/AC min.

500 V/AC min.

Insulation resistance:

- between input circuit and output or protection circuit

100 MΩ, 500V/DC

Operation parameters (Table 6).

Operating temperature -10ºC...+40ºC (see Figure1)

Storing temperature -20ºC...+60ºC

Relative humidity 20%...90%, no condensation

Vibrations during operation unacceptable

Surges during operation unacceptable

Direct insolation unacceptable

Vibrations and surges during transport According to the PN-83/T-42106

standard

2. Installation.

2.1. Requirements.

The buffer PSU should be mounted by a qualified installer, holding relevant permits and licenses

(applicable and required for a given country) for 230V/AC and low-voltage installations. The unit should be

mounted in confined spaces, in accordance with the 2nd environmental class, with normal relative humidity

(RH=90% maximum, no condensation) and temperature range from -10°C up to +40°C. The power supply sh ould

operate in a vertical position in order to provide free and convectional air flow through ventilating holes of the

enclosure.

1. Output current 4 x 1A + 0,2A battery charging

2. Output current 4 x 1A + 0,5A battery charging

Total current of the receivers+ battery is max. 4,5A.

The maximum output current is set to 4x1A at the output voltage of 12V. If the output voltage is higher than 12V,

reduce the power consumption by the receivers according to the diagram (page 3).

The power supply is designed for a continuous operation and is not equipped with a power-

switch. Therefore, an appropriate overload protection in the power supply circuit should be provided. Moreover, the

user should be informed how to disconnect the power supply unit from the mains supply (usually by assigning an

appropriate fuse in the fuse box). The electrical system shall be made in accordance with applicable standards

and regulations.

2.2. Installation procedure.

1. Before installation, make sure that the voltage in the 230V power-supply circuit is cut off.

2. Mount the PSU in a selected location and lead the connecting cables.

3. Connect the power cables (230V AC) to L-N terminals of the PSU. Connect the ground wire to the terminal

marked with grounding symbol: . Use a three-core cable (with a yellow and green PE protection wire) to make

the connection. The power cables should be connected to the appropriate terminals on the connection board

through the bushing

The shock protection circuit shall be done with a particular care: the yellow and green wire

coat of the power cable should be connected to the terminal marked with the symbol

on the PSU enclosure. Operation of the PSU without the properly made and fully operational

shock protection circuit is UNACCEPTABLE! It can cause damage to the equipment or an

electric shock.

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4. Connect the receivers with the AUX1 ... AUX4 connectors of the terminal block on the power supply module.

5. Connect the devices to the technical outputs, if needed:

- FAC; AC status indication (alarm panel, controller, indicator, LED etc.).

- FPS; technical output of the PSU operation status.

- FBL; technical output of the battery status (page 9 – technical outputs)

6. Use the FS-1 ÷ F4-1 jumpers to select overvoltage protection, protecting individual circuits against short circuit /

overload:

– melting fuse activation

–PTC fuse activation

7. Use the I

BAT

jumper to determine the maximum battery charging current, taking into account battery parameters

( I

BAT

jumper on: charging current 0,2A, I

BAT

jumper off: charging current 0,5A)

8. Switch on the ~230V AC power to the transformer (AC LED should be permanently illuminated, AUX LED should

be permanently illuminated).

9. Use the V

ADJ

potentiometer to set the required output voltage of individual circuits, monitoring the voltage at the

AUX output.

10. Use the OVP1 ÷ OVP4 jumpers to select to select the type of overvoltage protection of individual circuits. The

protection level should be set min. 1,5V above the output voltage.

11. Connect the batteries in series according to the markings: +BAT red to 'plus', -BAT black to 'minus’.

12. Check the optical indication of the PSU status: green LED lights at the AUX1 ÷ AUX4 outputs.

13. In case of mains power loss, it is possible to run the PSU from the battery. To do that, press and hold the

START button for 5 seconds (component 2, Fig. 2).

14. Close the cover after installing and checking the operation of the power supply.

Diagram of connecting the camera and the recorder to the MSEP412V module.

www.pulsar.pl PSBSEP04124

Diagram of connecting the camera and the recorder to the MSEP412 module.

3. Power supply operation indication.

3.1 Optical indication.

The PSU is fitted with 8 LED lights at the front panel:

RED LED:

• on – The PSU supplied with 230V AC voltage

• off – no 230V AC mains supply

RED LED:

• on – low battery voltage V

BAT

<23V

• off – battery voltage OK

RED LED:

• on – battery failure

• off – no failure

YELLOW LED:

• on – battery charging

• off – no battery charging

GREEN LED:

• on – DC voltage at the AUX1 ÷ AUX4 outputs

• off – no DC voltage at the AUX1 ÷ AUX4 outputs

Additionally, the PSU is fitted with LEDs on the PCB – see Fig. 2:

- AC red LED (Fig. 2, component 14) – is permanently illuminated during normal operation (AC power ON).

No AC power is indicated by turning off the LED.

- FPS red LED (Fig. 2, component 5) is not illuminated during normal operation (no failure). In case of activation of

the short circuit / overload protection at any output, the LED is permanently illuminated.

- AUX1 ÷ AUX4 green LEDs (Fig. 2, component 5) indicate voltage at the individual outputs of the module (L1 for

AUX 1 etc.). Activation of the short circuit / overload protection of a given circuit is indicated by turning off one of

the Lx LEDs.

- FLB red LED (Fig.2, component 5) – indicates battery voltage. During normal operation (UBAT > 23V), it is

permanently illuminated. In case of battery voltage drop (UBAT < 23V) the LED is off.

- LB yellow LED (Fig. 2, component 4) – indicates battery charging. The LED goes out at the end of the charging

process.

PSBSEP04124 www.pulsar.pl

3.2 Technical outputs.

The PSU has the following indication outputs:

• FAC – • FAC technical output indicating AC power failure

- OC type output indicating AC power failure. During normal operation, (230V AC power on) the output is

shorted to ground (L state – 0V). In case of power loss, the PSU will switch the output into hi-Z state (high

impedance) after a time lag set by the J1 and J2 jumpers: 5s/140s/17m/2h20m.

- R type output – relay type, indicating AC power failure. In case of failure, relay contacts are switched

automatically after a time lag set by the J1 and J2 jumpers: 5s/140s/17m/2h20m.

CAUTION! The arrangement of contacts at the figure 6 shows a potential-free status of the relay,

which is equivalent to AC power failure.

• FPS – technical output of the PSU operation status: - OC type output indicating failure (short-circuit,

overload). During normal operation, shorted to ground – L state (0V). In case of failure, the output is switched

into hi-Z state (high impedance).

• FLB – technical output indicating low battery voltage: - OC type output indicating low battery voltage

during battery operation. For the battery voltage V

BAT

>23V, the output is shorted to ground (L state – 0V). If

the battery voltage has dropped below V

BAT

<23V, the PSU will switch the output into high impedance state hi-

The technical outputs of the PSU are in the open collector (OC) configuration as shown in the Figure

below.

Fig. 5. Electrical diagram of the OC technical outputs.

Fig. 6. Electrical diagram of the relay output

• TAMPER - output indicating enclosure opening: - volt free contact input indicating the status of the

power supply doors, PSU closed: contacts closed (NC), PSU open: contacts open (NO).

4 Service and operation.

4.1 Procedure in case of short-circuit of the power supply output (SCP activation).

The AUX1 ÷ AUX4 outputs are protected against short-circuit by

melting fuses or PTC polymer fuses

(protection type is adjusted with the FS-x jumper). In case of melting fuse activation, it should be replaced with a

fuse of the same type. If the PTC polymer fuses are used, the output voltage is automatically disconnected, which

is indicated by switching off the green LED. Disconnect the load from the power supply output for approximately 1

minute.

4.2 Procedure in case of short-circuit of the BAT output or reverse battery connection.

In case of short-circuit of the BAT output or reverse battery connection, the F

BAT

fuse in the battery circuit

becomes damaged. Restoration of the voltage at the BAT output requires fuse replacement.

4.3 Procedure in case of overvoltage protection OVP activation.

The PSU is protected against overvoltage at the AUX1 ÷ AUX4 outputs. Overvoltage protection thresholds are

selected with the OVP-x jumpers. In case of overvoltage protection activation, the output voltage is automatically

disconnected, which is indicated by switching off the green AUX LED and turning on the corresponding OVPx LED.

To resume operation, lower the output voltage with a potentiometer or shift the overvoltage protection threshold to

higher values.

The protection level should be set min. 1.5 V above the output voltage.

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4.4 Battery operation.

In case of mains power loss, the unit will instantly switch to battery operation. To run the PSU from the

battery, connect the BAT connectors in accordance with the markings: +BAT red to 'plus', -BAT black to 'minus’ on

the battery, then press and hold the START button for 5 seconds.

The power supply is equipped with deep discharge battery protection (UVP), configured

with the P

BAT

jumper.

The battery protection is on when the P

BAT

jumper is off

4.5 Maintenance.

All maintenance procedures can be performed after disconnecting the power supply from the power

network. The PSU does not require any specific maintenance; however, its interior should be cleaned with

compressed air if used in dusty conditions. The battery status should be checked periodically. In case of any

failures (battery capacity loss, too high internal resistance), the batteries should be replaced. In case of fuse

replacement, use only compatible replacement parts.

PSBSEP04124 www.pulsar.pl

WEEE MARK

According to the EU WEE Directive – It is required not to dispose of electric or electronic

waste as unsorted municipal waste and to collect such WEEE separately.

GENERAL WARRANTY CONDITIONS

1. Pulsar K. Bogusz Sp.j. (the manufacturer) grants a five-years warranty for the equipment, counted from the

device’s production date.

2. The warranty includes free-of-charge repair or replacement with an appropriate equivalent (the selection is at the

manufacturer’s discretion) if the malfunction is due to the manufacturer, includes manufacturing or material defects,

unless such defects have been reported within the warranty period (item 1).

3. The equipment subject to warranty is to be brought to the place where it was purchased, or directly to the main

office of the manufacturer.

4. The warranty applies to complete equipment, accompanied by a properly filled warranty claim with a description

of the defect.

5. Should the claim be accepted, the manufacturer is obliged to provide warranty repairs, at the earliest

convenienve, however not later that within 14 days from the delivery to the service centre of the manufacturer.

6. The repair period mentioned in item 5 may be prolonged, if there are no technical possibilities to carry out the

repairs, or if the equipment has been conditionally accepted, due to the breaking warranty terms by the claimant.

7. All the services rendered by force of the warranty are carried out at the service centre of the manufacturer,

exclusively.

8. The warranty does not cover the defects of the equipment, resulting from:

- reasons beyond the manufacturer's control,

- mechanical damage,

- improper storage and transport,

- use that violates the operation manual or equipment’s intended use

- fortuitous events, including lightning discharges, power failures, fire, flood, high temperatures and chemical

agents,

- improper installation and configuration (in defiance with the manual),

9. The warranty is void in any of the following circumstances:

- construction changes

- repairs carried out by any unauthorized service center

- damage or removal of warranty labels

- modifications of the serial number

10. The liability of the manufacturer towards the buyer is limited to the value of the equipment, determined

according to the wholesale prices suggested by the manufacturer on the day of purchase.

11. The manufacturer takes no reponsibility for the defects that result from:

- the damaging, malfunctioning or inability to operate the equipment

- defects that result from using the equipment outside its stated specifications and operating parameters failing to

abide by the recommendations and requirements contained in the manual, or the use of the equipment.

Pulsar K.Bogusz Sp.j.

Siedlec 150, 32-744 Łapczyca, Poland

Tel. (+48) 14-610-19-40, Fax. (+48) 14-610-19-50

e-mail: biuro@pulsar.pl, sales@pulsar.pl

http://

www.pulsar.pl, www.zasilacze.pl

Pulsar PSBSEP04124 - v1.1 Operating instructions

Pulsar PSBSEP04124 - v1.1 Operating instructions

Pulsar PSBSEP04124 - v1.1 Operating instructions

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