Stampa

SineWave 2001VA UPS

 

Specifiche Tecniche

Power
2000VA / 1200W

Input
Voltage Single Phase; 220/230/240V selectable by DIP Switch (±25% )
HZ 50Hz/60Hz ±5%

Output
Voltage(AC) Increase 15% (Input:-9% to -25%); Decrease 15% (Input:+9% to +25%)
Voltage(INV) Inverter mode:±3%
Waveform(INV) Pure Sine-Wave with THD 3% at linear load
Hz(INV) Inverter mode: 50Hz or 60Hz ± 0.1Hz

Transfer
Line/Battery Nearly Zero Transfer (

Battery
Half-load runtime 9 min
Capacity 12V/7Ah
Quantity 4
Recharge Time 2-4 Hours to 90%
Type Sealed Maintenance Free Lead Acid VRLA Type

Protection
Over/under Volt. Switch to Battery Output whrn the Utility over regulation range
Overload(AC/INV) >110% Buzzer continuosly alarms and shuts down after 10 minutes
Short Circuit(AC/INV) Input Fuse & Electronic Circuit / Electronic Circuit
Low Battery Two stages, no battery drain after cut-off
EMI/RFI Full time suppression
Surge Protection Meet with IEEE 587 cat. A&B Standard
Modem/Network RJ11 / RJ45
Energy Rating 960 Joules instantaneous response
Attenuation Better than 45dB @1Mhz for Normal/Common mode
Noise Filtering EN50991-1

Connections
Output 4 x IEC(Battery Power Supply) + 1 x Schuko
Computer RS232(DB9) and USB

Display and Diagnostics
With LCD and LED Display

LCD Display
Status: Normal, AC Input High, AC Input Low, On Battery, Battery Low, Battery Bad, Overload, Fault, Phase error, Ground Fault
Data: Utility Voltage, Ouput Voltage, Output Hz, Load%, UPS Temperature, Battery Voltage, Runtime Timer

LED Display
Green=Normal, Amber=Warning, Red=Critical
LCD shows detalis in respect to the lighting indication of LED

Beeping Alarm
Overload, Fault, High Temperature, Battery On, Battery Low, Battery Bad, Over/Under Voltage, Frequency Error

Advanced Mode
Self-diagnostic; Direct Time-based readout of battery remained runtime

Communication Port
USB/DB9 port with TRUE RS232 serial signal plus dry contact signals

Environmental Condition
0-40°C; 0-95% Non Condensing Humidity

Safety Approval
CE/UL

Dimension (W x H x D cm)
17 x 24 x 47

Weight (N.W/ G.W) Kg
23