Helios SR100Hi Series User manual
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User’s Manual
SR100Hi Series - 100 W DC UPS
No-BreakTM DC UPS
OPTIONAL FEATURES
STANDARD FEATURES
3 Relay Alarms-Form C
Float Charger –Lead Acid Baeries
ELVD : Electronic low voltage disconnect
Temperature Sensor on 1.7m lead with adhesive
pad: -4mV / °C /cell ±10%
N+1 Redundancy
Comms:
• RS232
• RS485
• Modbus
• SNMP & Webpages
Customizable Digital I/O
BCT: Baery Condion Test.
QUALITY POWER SOLUTIONS BACKED UP BY REAL-WORLD ENGINEERING EXPERIENCE
V1 - 23/07/2018
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QUALITY POWER SOLUTIONS BACKED UP BY REAL-WORLD ENGINEERING EXPERIENCE
Table of Contents
1. SAFETY ……………………………………………………………………………………………………………………………………………………………...4
2. INTRODUCTION ………………………………………………………………………………………………………………………………………………… 5
3. SR100Hi Series - SYSTEM BLOCK DIAGRAM ……………………………………………………………………………………………………….5
4. OPERATION OF ELECTRONIC CIRCUIT BREAKER (ECB) FOR PROTECTION OF BATTERY CIRCUIT & BATTERY ……….5
5. FRONT PANEL LAYOUT ……………………………………………………………………………………………………………………………………...6
6. CONNECTION AND INITIAL TESTING ………………………………………………………………………………………………………………….7
7. LED INDICATION ……………………………………………………………………………………………………………………………………………….7
8. SR100Hi– DC SETTINGS ……………………………………………………………………………………………………………………………………8
9. SR100Hi– CONNECTIONS - Typical Examples …………………………………………………………………………………………….……9
10. MODEL CODING AND OPTIONS ……..…………………………………………………………………………………………………………...10
11. TECHNICAL SPECIFICATIONS…………………… ……………………………………………………………………………………………………11
12. CUSTOMISED MODELS ………………………………………………………………………………………………………………………………...12
13. TERMS OF WARRANTY ………………………………………………………………………………………………………………………………….12
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SR100Hi Series - 100 W DC UPS
The user is responsible for ensuring that input and output wiring segregation complies with local standards and that in the use of the equipment,
access is confined to operators and service personnel. A low resistance earth connection is essential to ensure safety and additionally, satisfactory
EMI suppression (see below).
HAZARDOUS VOLTAGES EXIST WITHIN A POWER SUPPLY ENCLOSURE AND ANY REPAIRS MUST BE CARRIED OUT BY A
QUALIFIED SERVICEPERSON.
Electrical Strength Tests
Components within the power supply responsible for providing the safety barrier between input and output are constructed to provide electrical
isolation as required by the relevant standard. However EMI filtering components could be damaged as result of excessively long high voltage tests
between input, output and ground. Please contact our technicians for advice regarding electric strength tests.
Earth Leakage
Where fitted, EMC suppression circuits cause earth leakage currents which may be to a maximum of 3.5mA.
Ventilation
High operating temperature is a major cause of power supply failures, for example, a 10oC rise in the operating temperature of a component will
halve its expected life. Therefore always ensure that there is adequate ventilation for the equipment. Batteries in particular suffer shortened
lifetimes if subjected to high ambient temperatures.
Water / Dust
Every effort must be made in the installation to minimise the risk of ingress of water or dust. Water will almost always cause instant failure. The
effects of dust are slower in causing failure of electronic equipment but all electrical equipment should be cleaned free of any dust accumulation at
regular intervals.
Electromagnetic Interference (EMI)
Switching power supplies and converters inherently generate electrical noise. All wiring should be as short as practicable and segregated from all
equipment wiring which is sensitive to EMI. Residual noise can be reduced by looping DC wiring through ferrite cores (sleeves). These are most
effective as close to the power supply as possible and as many turns of the wire taken through the core (+ and - in the same direction) as the core
will accommodate.
External fuse protection
Fuses or circuit breakers must be used in all battery circuits to protect against short circuits. External fuses should be used for power supplies/
chargers even though they are usually internally protected.
Connection polarity
It is critical to check the polarity carefully when connecting DC devices even with models which have non-destructive reverse polarity protection.
1. SAFETY
Glossary of terms used in our user manuals
PSU = power supply unit BCT = baery condion test ECB = electronic circuit breaker
ELVD = electronic low voltage disconnect RPP = reverse polarity protecon EMI = electromagnec interference
SNMP = Simple Network Management
Protocol EMC = Electromagnec compability DOD = depth of discharge
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SR100Hi Series - 100 W DC UPS
2. INTRODUCTION:
The SR100Hi power supply is designed to provide DC power to lead acid baeries for crical back up applicaons.
3. SR100Hi Series - SYSTEM BLOCK DIAGRAM
The No-Break ™DC - SR100Hi power supply is designed to provide DC power to lead acid baeries for crical back up appli-
caons.
4. OPERATION OF ELECTRONIC CIRCUIT BREAKER (ECB) FOR PROTECTION OF BATTERY CIRCUIT & BATTERY
The ECB will operate on overcurrent as above & is also acvated for the low voltage disconnect funcon on mains fail (no input pow-
er). It will reset when input power is restored, or can be manually reset by briey shorng the BAT- and LOAD- terminals together
when there is no input power.
Max. allowable
load amps
(x I rated)
8
7
2.5
2ms 300ms Time
ECB automacally resets IPSU = 1x I rated
7x I rated for 300ms max.
2.5 x I rated unl baery fully dis-
charged
Short circuit condion,
ECB trips within 2ms
8
6
2ms 300ms Time
6x I rated for 300ms max.
IPSU = 0
Short circuit condion,
ECB trips within 2ms
1.5 x I rated unl LV disconnect
operates
1.5
Max. allowable
load amps
(x I rated)
BATTERY +
LOAD +
ILOAD
AC MAINS
POWER
OK LED
BATTERY
SYSTEM
OK LED
MAINS FAIL /
POWER SUPPLY
FAIL ALARM
BATTERY
SYSTEM
FAIL ALARM
LED
OFF
ALARM
OFF
LOAD -
BATTERY -
NORMAL OPERATION
LOAD CURRENT < PSU MAX CURRENT
ELECTRONIC
BREAKER
CIRCUIT
POWER CONVERSION
BATTERY
MANAGEMENT
& ALARM
CIRCUIT
BATTERY
CURRENT
SENSE
OUTPUT VOLTAGE, CURRENT
LIMIT & BATTERY CHARGE
CURRENT CONTROL ICHARGE
BATTERY TEMP.
SENSOR
REVERSE
POLARITY
FUSE
LED
ON
ALARM
OFF
Mains On No Mains
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SR100Hi Series - 100 W DC UPS
5. FRONT PANEL LAYOUT
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23
4
5
6
7
1. AC INPUT IEC60320 - C13 10A
2. 3 DIGITAL INPUT & 1 DIGITAL OUTPUT: I/O terminals are customizable and if used, the product will have a unique code.
3. ALARMS RELAY FORM C
AUX : Acvated by BCT ( Baery Condion Test)
POWER:
• Loss of mains input power. This alarm has 30 seconds delay before acvaon upon mains failure.
• PSU fails
BATTERY:
• Baery Low: 1.8V/cell (for 2V cells) - operates only when no mains power present.
• Baery Missing or fault in baery circuit wiring (alarm does not acvate for up to baery detecon interval me.
• BCT fail
4. LOAD & BATTERY CONNECTION
5. LED indicaons Ba OK and Power OK (Mimics alarm condions above)
6. Comms Port (if installed)
• RS232 (ASCII)
• RS485 (ASCII)
• Modbus Serial
• SNMP, Webpages
7. Tempco ( Temperature sensor for voltage compensaon)
NOTES
Reverse polarity protecon
If the baery is connected in reverse, the internal baery protecon fuse may be ruptured and the unit should be re-
turned to the manufacturer for repair. If the fuse is good, the voltage measured as at step 3 above should be exactly the
same on both the load and baery outputs.
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SR100Hi Series - 100 W DC UPS
6. CONNECTION AND INITIAL TESTING
1. Check input and output voltages of system, ensure that they match the equipment. All loads should be isolated.
2. Check polarity of all wiring. Place temperature sensor probe near or on baeries.
3. Plug in ac input and turn power on. Both LEDs will light up aer approx. 4 sec, “BATT OK” LED will go out aer another 10 secs
(since there is no baery connected). DC output voltage should appear at both load and baery outputs (ensure screws are
ghtened down on the connector block).
4. Turn o input power.
5. Connect baery.
6. Check that ELCB (internal electronic circuit breaker) closes by shorng together the BATTERY –ve and LOAD –ve terminals for
about 2-3 sec. You will hear a relay operate and both LEDs will light up. If this does not happen, there is a fault in the wiring or
the internal baery protecon fuse is ruptured (see Note 2 below). The baery voltage will then appear at the load terminals
and the “BATTERY OK” relay energises. The “POWER OK” LED stays on for about 30 seconds.
7. Connect load wiring to LOAD+ and LOAD- terminals. Check that the load does not exceed 110% of the unit. Any peak loads which
are > 110% must be connected to the B+ and B-terminals.
8. Turn on ac power.
9. Aer the baeries are fully charged, check that the baery connues to power up the load when the input power is turned o.
Power
OK LED
Baery OK
LED
Power
Alarm
Baery
Low Alarm Condion
Normal Normal System Normal: AC power is on, PSU output is OK, baery circuit is OK and baery voltage is > V Baery
Low.
Normal Normal Battery detection test imminent (LED begins flashing prior to test ).
Normal Alarm
System AC power is on, PSU output is OK but either:
1. Internal baery fuse has opened (only if baery has been reverse polarity
connected), or
2. Baery circuit open - baery missing, or fuse / circuit breaker / wiring fault.
Alarm Normal Either AC power has failed, or PSU has failed.
Baery system is OK
Alarm Alarm AC Power is o / DC has failed and baery has discharged to < V Baery Low, unit will connue delivering
baery current unl low level iniates ELVD.
Alarm Alarm AC Power is o / DC has failed and ELVD has acvated and disconnected baery from load. Residual
current drain on baery following ELVD <1 mA.
Normal Normal Baery Condion Test is in progress: LEDs ash alternately
Normal Alarm Baery Condion Unserviceable: failed to maintain terminal voltage during baery condion test
Please note that the last three conditions apply only if the battery condition test option is enabled.
LEGEND : OFlashing
On Flashing Slowly
7. LED INDICATION
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SR100Hi Series - 100 W DC UPS
8. SR100Hi– DC SETTINGS
Parameter Default Sengs Actual sengs if dierent from default
V nominal 12 24 30 36 48
V output (20°C) 13.8 27.6 34.5 41.4 55.2
BatDetect (mins) 60 60 60 60 60
Vpres: 12.2 24.4 30.5 36.6 48.8
Vbatl: 11 22 27.5 33 44
Vshutd: 11.5 23 28.7 34.5 46
Vdisco: 10 20 25 30 40
Bccl (%) 100 100 100 100 100
Comms MMMMM
BCTim (mins) 20 20 20 20 20
CC Mins: 40 40 40 40 40
CC Hrs: 23 23 23 23 23
CC Days: 27 27 27 27 27
MBCT: 30 30 30 30 30
BatDetect: Time between baery detecons
Vpres: Voltage threshold for baery detecon and BCT. Note that if the voltage drops to this level dur-
ing a BCT the test is aborted and the BAT LOW alarm shows.
Vshutd: Internal voltage level of the power supply during baery detecon and baery condion tests.
Vbatl: BAT LOW alarm voltage level
Vdisco: Voltage at which the load is disconnected from the baery during mains fail
Bccl: Baery charge current limit as percentage of the rated power supply current
Comms Communicaon mode of PSU: F = connuous data stream of status
BCTim: Length of baery condion test
CC Mins: Time in minutes between automacally scheduled BCTs
CC Hrs: Time in hours between automacally scheduled BCTs
CC Days: Time in days between automacally scheduled BCTs
Note: The total me interval between baery condion tests (BCTs) is the sum total of the three 'CC' sengs
MFiBCT: Time in minutes before the mains fail check during the BCT (only applicable to SR100)
Scheduled BCT disabled
SNMP VERSIONS ONLY:
Alarm mask 1048187
DHCP enabled
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SR100Hi Series - 100 W DC UPS
9. SR100Hi– CONNECTIONS - Typical Examples
• Standard No-Break™DC charger and baery bank
This is the basic connecon which is most commonly used, and provides adequate protecon for the majority of systems requiring
DC back up in the event of a mains power failure.
Note: On stud connected output models the L+/B+ is one stud labelled “+ COMMON”
Alarms Available
Input Fail YES
Baery Missing YES
Baery Low YES
Baery Condion Test Fail YES
ALARMS
=
ECB/
LVD
INPUT
L+
B-
L-
SRxxx Hi
B+
LOAD
• Peak load connecon using No-Break™DC charger
Peak loads which may exceed 1.5 x max. charger output can be connected to bypass the internal overcurrent trip circuit.
Alarms Available
Input Fail YES
Baery Missing YES
Baery Low YES
Baery Condion Test Fail YES
=
PEAK
LOAD
INPUT
NORMAL
LOAD
*LVD
* LVD oponal ( external to PSU)
L+,B+
B-
L-
ALARMS
COMMS
(SRxxx Hi models)
SRxxx Hi
ECB/
LVD
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SR100Hi Series - 100 W DC UPS
• N+1 connecon using two complete No-Break™DC systems with each one capable of supplying the loads- posive common
Alarms available
Power OK YES
Baery missing YES
Baery low YES
Baery condion test fail *1YES
SRxxx Hi
ALARMS
ALARMS
L+ B+
B-
L-
INPUT
INPUT
=
L-
LOAD
=
SRxxxHi
ECB/LVD B-
ECB/LVD
BATT1
L+ B+
BATT2
*1 interlock circuit required for automated BCT (use SR100 Hi chargers)
10. MODEL CODING AND OPTIONS
T = Yes Blank = NoTemperature Compensation
12, 24, 30, 36, 48VDC output (nominal battery voltage)
Function
Optional Interface Port
485 = RS485 232 = RS232 LAN+=SNMP-Webpages 485+=Modbus Serial
Power 100W
L = 230V AC with front switch panel Blank = 230V AC no switch G = 110V AC no switch
X = Pluggable connectorOutput DC connector
SR100Hi 12 T X G - 485+
Input voltage
HL = DC PSU/charger - 2 terminal output
Hi = No-Break™ DC UPS - 3 terminal output (separate battery output )
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SR100Hi Series - 100 W DC UPS
11. Technical Specicaons
Output power 100W
Input Voltage 180V - 264VAC 45-65Hz
Output Voltages 12V, 24V, 30V, 36V, 48 VDC
Voltage Adj. Range 85% - 105% of Vout
Overcurrent protecon Constant current limit under overload and short circuit condions
Isolaon Input – earth – 2.5KVdc
Output – earth - 500Vdc
Eciency > 85%
Operang temperature -20 to 50 °C ambient at full load
Humidity 0 - 95% relave humidity non - condensing
Cooling Natural convecon
LVD Low Voltage Disconnect
LED Indicaon Green: Ba OK
Green: Power OK
Alarms Relay
Form C contacts 30VDC,2A/110VDC,0.3A,125VAC, 0.5A
AUX (Acvated by BCT)
POWER (main fails, PSU fails)
BATTERY (ba missing , ba low, BCT fail)
Temp. Compensaon Temperature sensor on 1.7m lead with adhesive pad: -4mV/ °C / cell ± 10%
Baery Charge Current Limit Customizable on request.
Reverse Polarity Baery reverse connecon will open internal fuse (and produce alarm)
Baery Monitoring Detects for presence of baery on start up, then every 60 minutes when charge current
< 200mA
Baery Circuit Protecon Electronic circuit breaker (ECB) operates under the following condions:
- Low Baery Volts: Baery Voltage drops to 1.67V/cell
Overload: Max load must not exceed 110% of rated current. Peak loads must be
connected to B+ & B– terminals. Not suitable for N+1 connecon.
Short Circuit: <2ms, backed up by fuse
AC input connector IEC60320— C13 10A input socket (similar to PCs etc)
DC Connecons Plug-in style socket & mang screw terminal block: (max. wire 2.5mm² / way)
Alarm connecons Plug in screw terminal block
Enclosure Zinc plated & powder coated steel
Dimensions 147W x 177D x 62H (± 1mm)
Weight 0.95 Kg
STANDARDS
EMC To CISPR 22 / EN55022 class A
Safety To IEC950 / EN60950 / AS/NZS3260
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SR100Hi Series - 100 W DC UPS
12. CUSTOMISED MODELS
Model code BASE MODEL SPECIAL FEATURES
Helios Power Soluons warrants this product for 24 months from date of shipment against material and workmanship defects. Liabil-
ity under this warranty is limited to the replacement or repair of the defecve product as long as the product has not been damaged
through misapplicaon, negligence, or unauthorized modicaon or repair.
13. TERMS OF WARRANTY
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