bolid S2000-SP4/220 Instruction Manual

ADDRESSABLE EXECUTIVE MODULE

S2000-SP4/220 Ver 1.04

INSTRUCTION MANUAL

1 TECHNICAL DATA

1.1 General

1.1.1 This Instruction Manual describes S2000-SP4/220 Addressable Executive Module along

with its operation algorithms and characteristics.

1.1.2 The module is used as part of a multipart executive device in fire and intrusion alarm

systems under control of an S2000-KDL ver.2.01+ or S2000-KDL-2I ver.1.00+ controller and an
S2000M console.

1.1.3 Meeting requirements for sound and light indication of control and indicating equipment

is provided together with the S2000-KDL and S2000M.

1.1.4 The module is designed to monitor and control fire dampers, smoke control dampers,

deluge valves, and other executive devices powered by mains power 220 V.

1.1.5 The module is to be attached at a suitable place (on a wall, above a suspended ceiling, or

on another constructions near the connected executive device) protected against atmospheric
fallouts, mechanical damage, and unauthorized access. The module is designed for round-the-clock
operation.

1.1.6 The module must not be used in aggressive medium or dust condition, or in explosion-

hazardous premises.

1.1 Specifications

1) Input Voltage
Communication Part – 8 V to 12 V via the polling loop

Executive Part

2) Insulating Voltage of the Polling Loop

and Executive Part

3) Consumed Current:
Communication Part – 1.5 mА max

Executive Part – 50 mА max(without regard to output’s current)

4) Outputs – 2

5) Max Switching Current per an Output

6) Switching Voltage – 220 V

7) Circuit Control Current – 0.5 mА max

8) Monitored Limit Switches

9) Pre-Operation Time – 15 s max

10) Operating Temperatures – Minus 30°C to +55°С

11) Humidity – 93 % at +40°С

12) Overall Dimensions – 156 mm × 107 mm × 39 mm

13) Weight – 0.2 kg max

14) Ingress Protection Rating

– An external power supply, 220 V ac
– Up to 500 V

– 3 А

– 2

– IP20
– IP30, if wall mounted

Table 1. Specifications

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1.2 Standard Delivery

Circuit

Table 2. Standard Delivery

Item Q-ty

S2000-SP4/220 Addressable Executive Module 1
Instruction Manual 1
Woodscrews 3
Wall Plugs 6×30 3
Flat Head Tapping Screw 2.2х6.5 1
MF 1/4W-8k2-5% Resistor 6
Fuse 3.15 A (the spare part) 1
Fuse 0.25 А (the spare part) 1
Package 1

2 OPERATION

2.1 Outputs

2.1.1 The module provides control of their outputs in accordance with a given executive

program under receiving commands sent via the polling loop from the connected S2000-KDL
controller. The module also provides monitoring the connected executive circuits for open / short
circuit failures.

2.1.2 The module executes commands to switch the outputs on and off for a programmed

time.

Note: In state of an open or short circuit failure at the moment of receiving a command to switch

on, an output will not be switched on.

2.1.3 States of an output are defined by the voltage on the terminals of the output relative to

the ‘N‘ terminal of the power input:

Table 3. States of an Output

Condition

Norm

Open Failure

Short Failure

Output State L [R] Terminal N [R] Terminal

On Input Voltage Value 0.3 V to 0.9 V

Off 0.35 V to 4.5 V 0.3 V to 0.6 V

On Input Voltage Value 0 V to 0.3 V

Off 4.5 V to 5 V 0 V to 0.3 V

On Input Voltage Value Input Voltage Value

Off 0.3 V to 0.6 V 0.3 V to 0.6 V

Note: If an output is switched off, a short circuit failure is defined by a voltage between the

output’s terminals which must not exceed 60 mV.

2.1.4 If executive devices with the effective resistance of 250 Ohm to 50 kOhm are to be

connected to the module, they should be connected directly without any additional units (see
Figure 1).

2.1.5 If the effective resistance of an executive device is less than 250 Ohm (the voltage

between output terminals is less than 0.06 V while the control current is 0.5 mA), the device must
be connected in series with two back-to-back diodes with relevant wattage and backward voltage
400 V and more (for example, a 1N4007 diode if the operational current does not exceed 1А or a

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1N5406 diode if the operational current exceeds 1А). The diodes must be brought closely to the

Circuit

Circuit Resistance

executive device (see Figure 1).

2.1.6 If the control voltage is 5 V and the load effective resistance exceeds 50 kOhm (the

voltage between terminals of the output exceeds 4 V), a resistor with resistance less than 50 kOhm
and the relevant wattage (47 kOhm & 2 W is recommended) should be brought in the circuit
closely to the executive device, in parallel with it (see Figure 1).

2.1.7 The module provides responding with the current output circuit condition on a request

from the connected S2000-KDL.

2.1.8 States of the executive outputs and the controlled circuits connected to them are

indicated in the quiescent mode by means of ‘1’ and ‘2’ LEDs on the module’s faceplate as shown
in Table 4.

Table 4. Indication of Output Status

Condition

Norm

Open Failure

Output Status Indicator Behavior

On Lit steady in green
Off Off
On
Off

Double-flashes in yellow once per two seconds

On

Short Failure

Off

Flashes in yellow once per two seconds

2.2 Limit Switches

2.2.1 The module can monitor states of two connected limit switches (LS).

2.2.2 Limit switches are used to monitor current position of the damper’s blades

(open / closed).

2.2.3 A limit switch circuit can be in one of the four states which are defined by the circuit

resistance. Table 5 shows the ranges of resistance values for relative states of the limit switch
circuits.

2.3 TEST Button

2.3.1 The module provides connecting an external button TEST.

2.3.2 The TEST button is designed to test damper operation conditions manually.

2.3.3 To avoid unauthorized actions with the damper, the TEST button is active only if the

module is switched to a special test mode.

2.3.4 To switch the module to the test mode, send the relevant command from the network

controller specifying the address of the module and the time the module will be being tested for.

2.3.5 The electric circuit of the TEST button can be in one of four available states which are

defined by the circuit resistance. Table 5 shows ranges of the resistance values for these four states
of the TEST button circuit.

2.3.6 Any electric button – either a push button or a sticky button, with switched or closed

contacts can be used as the TEST button.

Table 5. Circuit Conditions of TEST Button and Limit Switches

Min Max Min Max TEST Button Limit Switch

0 2
2 6
6 20

20

[kOhm]

ADC Values Circuit Condition

0 85

86 139

140 200

∞∞∞∞

201 255

Short Failure Short Failure

Pushed in Closed

Released Open

Open Failure Open Failure

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2.4 Power Inputs

Second

2.4.1 The module monitors input power voltage at the power inputs during operation.

2.4.2 Status of powering the module is indicated by READY LED.

2.4.3 If power voltage at both power inputs is between 150 V and 280 V, the module enters in

the Power Norm mode and the READY LED is lit steady.

2.4.4 When the voltage at any power input comes out of the normal range 150 V to 280 V, the

module enters the Power Failed mode.

Table 6. Power Status Indication

First Power

Input Status

Power Input

Status

Indicator Behavior

Failed Norm Flashes in green once per four seconds
Norm Failed Double-flashes in green once per four seconds
Failed Failed Flashes triply in green once per four seconds
Norm Norm Lit steady in green

3 INSTRUCTIONS

3.1 Safety Precautions

3.1.1 There are circuits under a hazardous voltage within the module, the terminals of the

circuits being covered by a protective electric insulated housing.

3.1.2 Do SHUT OFF the device power before mounting, wiring, or maintaining the module.

3.1.3 Mounting and maintaining the module MUST be performed by qualified engineers.

3.2 Preparation for Using

3.2.1 If necessary, change the module’s addresses within the polling loop of the connected

S2000-KDL. The addresses of the module must not be the same as addresses of any devices
connected to the same polling loop.

3.2.2 If you are going to use the module with a single power supply, the power supply should

be connected to both power inputs of the module.

WARNING: Connecting an alternating current power supply to the module, be sure the
Neutral wire is connected only to the N terminals of the module. These terminals are
combined in a block, so both power inputs must be fed from the same phase of the mains.

3.2.3 Attach the module at a suitable location (on the wall, or above a suspended ceiling, or on

another construction closely to executive devices at places protected against atmospheric fallouts,
mechanical damage, and unauthorized access).

3.2.4 Wire the module as shown in Figure 1.

3.2.5 If it is necessary to control an executive device which requires a single control signal

(and uses only one module’s relay output), the unused module’s output is shunted by a resistor of
less than 50 kOhm and relevant wattage (47 kOhm & 2 W is recommended).

3.2.6 Table 7 describes how to connect actuators.

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Figure 1. Connection Diagram.

Table 7. How to Connect an Actuator to the S2000-SP4/220

Manufacturer Article How to Connect

Belimo BLF-230

Directly to the required output, the unused output is shunted

by a 47 kOhm @ 2 W resistance
Belimo BE-230 Directly, without additional elements
Belimo BLE-230 Directly, without additional elements

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3.3 Assigning an Address

The module occupies five addresses within the polling loop of the S2000-KDL and provides
storing the addresses in the module’s non-volatile memory. The addresses are adjacent, that is the
module occupies five addresses in a row, for example (factory values):

Damper address: 123

R1 (Output 1) address: 124

R2 (Output 2) address: 125

LS1 (Limit Switch 1) address: 126

LS2 (Limit Switch 2) address: 127

To assign the addresses, send from the S2000M console or the PC one of the following
commands for the S2000-KDL:

– Program the Device Address;

– Change the Device Address.

Program the Device Address command is used when the currant module addresses are unknown
or the same addresses are incorrectly assigned to two or more devices. To program the module
addresses from the console or the PC, issue the relevant command specifying the required address
which is to be assign with the module. In such case the LOOP LED of the module flashes four times
periodically. Within 5 minutes since issuing the command press the tamper switch of the module
three times long (>1 s) and once short (<0.5 s). The pause between pressings should be no more than

0.5 s. If a mistake was taken during pressing the combination, nest time try to press the tamper
switch after 5 s or more. The console or PC will display the events about disconnecting devices with
old addresses and finding devices with new programmed addresses. If the devices did have the same
addresses, no messages about disconnecting devices with old addresses are displayed.

If you need to change module’s addresses which have been already known, you should send a
Change the Device Address command from the console or PC specifying the old address (the first of
the five old addresses) and the new address (the first of the five new addresses) of the module. In
such case the console or PC will display events about disconnecting the devices with the old
addresses and finding the devices with the newly given addresses.

3.4 Using

The module operates under the connected S2000-KDL controller; all operation conditions
(executive program, activation time, activation delay) are specified in the S2000-KDL configuration
using Uprog software. To use the module, by means of the UProg program set the Device Type in
the ‘S2000-SP4/220’ value for the first of the five addresses which are to be used for the S2000­SP4/220 and, if necessary, associate S2000-KDL zones with outputs on the Dampers tab. The
algorithms of setting types of addressable devices and configuration parameters are described at the
exploitative documents for S2000-KDL, S2000M, and Orion Pro software.

3.5 Inspecting Module’s Operability

3.5.1 Wire the module as described in Clause 3.2.

3.5.2 After supplying power to the PL terminals, the LOOP indicator is lit steady until the

S2000-KDL polls the programmed address. Then the LOOP LED flashes with long pauses.

3.5.3 Assign a required address range for the module.

3.5.4 By means the UProg program, in the configuration of the S2000-KDL assign the first

module’s address with the S2000-SP4-24 Device Type.

3.5.5 Open the module cover and ensure that a tamper alarm message has been received by

the S2000M console or Orion Pro software (a message about tamper recovery should come within
15 seconds after closing the cover).

3.5.6 Further inspection of the module is to be carried out in cooperation with other system

components, by issuing damper control commands to the module and logging messages about states

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of monitored circuits. The system should comprise an S2000M console or a personal computer with
installed Orion Pro software and the connected S2000-KDL controller.

3.5.7 Test the damper manually by using the TEST button connected to the S2000-SP4/220 (if

connected). To do so, switch the module to the Test Mode, issuing the relevant command from the
network controller. Pushing the TEST button (for at least a half of second) will invert the current
damper state. For example, if the damper is in the operating state, pushing the TEST button will run
the mechanism of switching the damper to the safety state.

4 MAINTENANCE

Please inspect the module annually by doing the following:

1. Check the S2000-SP4/220 visually for contaminations and mechanical damage

2. Test the S2000-SP4/220 operability as said above

3. Verify the S2000-SP4/220 for secure mounting and wire connection conditions

5 OVERALL AND MOUNTING DIMENSIONS

ZAO NVP Bolid, 4 Pionerskaya Str., Korolev 141070,
Moscow Region, Russia

Phone/fax: +7 495 775-7155
Email:

info@bolid.ru, overseas@bolid.com

www.bolid.com

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