Studer Innotec XTH 8000-48, XTH 6000-48, XTH 5000-24 Table of standard configurations

Page 34

STUDER InnotecXtender

17 Table of standard configurations

No. of

Denomination / description

 

Units

Fact.

Mod.

 

config.

 

 

value

value

 

 

 

 

 

 

 

 

1107

Maximum current of the AC source

 

A

30

 

 

1108

Undervoltage of the empty battery

 

V/cell

1.93

 

 

1109

Sub-voltage of the charged battery

 

V/cell

1.75

 

 

1110

Restart voltage of the inverter after undervoltage of the battery

V/cell

2

 

 

1111

Automatic startup at power up

 

y/n

no

 

 

1112

Inverter frequency

 

Hz

50

 

 

1121

Maximum DC voltage for stopping the Xtender

V/cell

2.84

 

 

1126

Source assistance (Smart Boost) permitted

y/n

no

 

 

1138

Battery charge current

 

A

60

 

 

1139

Battery voltage correction according to the temperature

mV/°C/

-5

 

 

 

 

 

cell

 

 

 

1140

Battery maintenance voltage

 

V/cell

2.27

 

 

1143

Voltage 1 to allow a new battery cycle

V/cell

2.1

 

 

1144

Duration of under voltage 1 to allow a new cycle

min.

30

 

 

1145

Voltage 2 to allow a new battery cycle

V/cell

1.93

 

 

1146

Duration of under voltage 2 to allow a new cycle

sec.

180

 

 

1156

Battery absorption voltage

 

V/cell

2.4

 

 

1157

Duration of absorption

 

h

2

 

 

1159

Current at end of absorption

 

Adc

10

 

 

1161

Minimum interval between absorptions

h

3

 

 

1187

Sensitivity of the charge detection (100% approx.25W)

%

10

 

 

1189

Time interval between load search pulses

sec.

0.8

 

 

1190

Duration of undervoltage of battery before disconnection

min.

3

 

 

1191

Dynamic compensation for undervoltage

y/n

yes

 

 

1194

Battery adaptive low voltage allowed

 

o/n

non

 

 

1195

Max voltage for adaptive low voltage

 

V/cell

2.08

 

 

1198

Time elapsing before transfer relay opens

sec.

8

 

 

1199

ACin voltage causing the opening of the transfer relay

Vac

180

 

 

1200

Immediate open critical threshold for the transfer

Vac

50

 

 

1246

Auxiliary contact 1 activated by voltage 1 {1247} after delays

y/n

yes

 

 

 

{1248}

 

 

 

 

 

1247

Voltage 1under which auxiliary contact 1 is activated

V/cell

1.95

 

 

1248

Delays on voltage 1 to activate auxiliary contact 1

min.

1

 

 

1249

Auxiliary contact 1 activated by voltage 2 {1250} after delays

y/n

yes

 

 

 

{1251}

 

 

 

 

 

1250

Voltage 2 under which auxiliary contact 1 is activated

V/cell

2

 

 

1251

Delays on voltage 2 to activate auxiliary contact 1

min.

10

 

 

1252

Auxiliary contact 1 activated by voltage 3 {1253} after delays

y/n

yes

 

 

 

{1254}

 

 

 

 

 

1253

Voltage 3 under which auxiliary contact 1 is activated

V/cell

2.05

 

 

1254

Delays on voltage 3 to activate auxiliary contact 1

min.

60

 

 

1255

Voltage 1above which auxiliary contact 1 is deactivated after delays

V/cell

2.25

 

 

1256

Delays on voltage {1255} to deactivate auxiliary contact 1

min.

60

 

 

1258

Auxiliary contact 1 activated by power 1

y/n

yes

 

 

1259

Power 1 above which auxiliary contact 1 is activated after delays

%

120

 

 

1260

Duration of power 1 for activating auxiliary contact 1

min.

1

 

 

1261

Auxiliary contact 1 activated by power 2

y/n

yes

 

 

1262

Power 2 above which auxiliary contact 1 is activated after delays

%

80

 

 

1263

Duration of power 2 for activating auxiliary contact 1

min.

5

 

 

1264

Auxiliary contact 1 activated by power 3

y/n

no

 

 

1286

Output voltage

 

Vac

230

 

 

 

 

 

 

 

 

 

Installation and operating Instructions

Xtender V1.3

 

Page 34

 

Image 34
Contents Xtender Table of Contents General information IntroductionOperating instructions Quality and warranty ConventionsExclusion of Liability Handling and moving Assembly and installationInstallation site StorageFastening ConnectionsPos Description CommentCabling Choice of systemEarthing system Recommendations for dimensioning the system Fuse on the battery side Wiring diagramsConnecting the battery XTH3000-12 XTH5000-24 XTH6000-48 XTH8000-48BATTERY-SIDE Connection Connecting the Consumers AT the 230 V AC Output Powering up the installation Connecting the batteryDescription and functioning Circuit diagramDescription of the main functions Fast voltage loss detection mode fast transfer Temperature is increased or the ventilation Limiting the Input Current by Limiting the Charger Current Input Current Controlled by Input Voltage Auxiliary Contacts Multi-unit configurations Accessories RCC-02 RCC-03Main on/off control Indicated alarm CommentControl Display and control partsCheck the cause of this excess voltage. The equipment will Product recycling Maintenance of the installationEC declaration of conformity Comments of annexes’ figures Example of a hybrid installation Example of installation in a vehicle AC partInstallation example in a boat, with isolation transformer Example of parallel connection of 2 or 3 XtendersFigure elements DC part Elem Description CommentFigure elements AC part Elements of connexion cabinet a Control and display parts for the Xtender b Type plate elements bStuder Innotec Xtender Table of standard configurations Studer Innotec Xtender Technical data Model XTH 3000-12 XTH 5000-24 XTH 6000-48 XTH