Pure Sine Wave Inverter OWNER’S MANUAL DC-AC Power Inverter Special Feature: DC Fuse: Accessible on rear cover. 1.5 times rated power for 10 seconds 2 times rated power for 2 seconds Remote Control (Optional) USB Output: 5V,500mA (Optional) Variable speed DC fans, Controlled by: Temperature and Load. Protection: LED Indicator& Audible Alarm.
Table of contents 1. Introduction………………………………………………..……3 1.1 What is an inverter?……………………………..….…..3 1.2 Pure Sine Wave Inverter……………………….……….3 2. Main Components………………………………………….…...3-6 2.1 Front panel………………………………………….…..3-4 2.2 Rear panel………………………………………..….…..5 3. How to Use Inverter….…………………………………….……6 3.1 Load consideration………………………..………….…6 3.2 Configuring the Battery Bank …………………………7 3.3 Battery wiring examples………………………..………7-8 3.4 Placement of the inverter………………………..……..8 3.
1. INTRODUCTION 1.1 What is an Inverter? Power inverter is an electronic device that converts DC (Direct Current) battery power to standard AC (Alternating Current) power. DC is the power that is stored by a battery while AC is the standard power needed to run electrical equipment. A Power Inverter can be used in places and situations where AC power is not available. 1.
C. AC Output Receptacle: Australia (10Amp) D. Vent Outlet. Allows hot air pushed from the rear cooling fan to exit. Therefore it MUST be kept clear whenever the power inverter is to be used. E. Chassis Ground (some models) Properly grounds the Inverter to vehicle grounding system or to earth ground. G. Remote Switch Port (Optional): Use to connect the remote ON/OFF switch via a communication cable. H.
2.2 Rear Panel The rear panel view shows the inverter’s Cooling fan, DC Battery Terminals, Fuses, Chassis Ground (some models). A. Temperature and Load controlled Multi-Speed Cooling Fan Quiet, efficient fan prolongs equipment service life. 1. Load <40% or inner temperature less than 30 ℃, = fan(s) don’t run. 2. Load >40% to <60% = the fan’s rotational speed is 40% 3. Load >60% to <80%, = the fan’s rotational speed is 60% 4. Load >80% to <100% = the fan’s rotational speed is 80% 5.
C. Fuse Fuses for DC Input have been fitted to the rear panel. So as to be easily accessible in order to facilitate checking & replacing if required. Depending on the installation this maybe possible without removing the inverter. 3. HOW TO USE INVERTER 3.1 Load consideration When an appliance with a motor starts, it requires a momentary surge of power. This surge of power is the “starting load” or “peak load”. Once started, the appliance requires less power to continue to operate.
3.2 Configuring the Battery Bank To determine the approx’ minimum battery amp-hour rating that you will need to operate appliances from the inverter and any DC appliances powered by the battery bank, follow these steps: 1. List the maximum continuous wattage that the inverter has to supply. 2. Estimate the number of hours the appliances will be in use between battery recharges. This will vary depending on appliances.
3.4 Placement of inverter The location where to install inverter must be: A. DRY: Do not allow water to drip or splash onto it. B. COOL: Ambient air temperature should be between 0º C and 40º C - ideally between 15º C and 25º.Do not place the inverter on or near a heating vent or any piece of equipment which is generating heat above room temperature. Do not place the inverter in direct sunlight unnecessarily. C. VENTILATED: Allow at least one inch of clearance around the unit for air flow.
3.5 Mounting position of the inverter The inverter may be mounted on a horizontal or vertical service. Away from heat sensitive materials & flammable items. (Follow All Safety Instructions). 3.6 Connections Follow the connection sequence described below. Step 1: Ensure that the ON/OFF switch on the Inverter is in the OFF position. If the power source is a DC power supply, switch it OFF as well. Step 2: Connect inverter to power source.
12. Disconnect all AC and DC connections before working on any circuits associated with the inverter. Turning the ON/OFF switch on the inverter to off position may not entirely remove dangerous voltage. 13. Keep the Inverter,Batteries & all cabling away from children. 5. PROTECTION FEATURE This Inverter is equipped with numerous protection features to ensure safe operation. Input Low Voltage Protection: A: When battery voltage is below 10.8V±0.2V(for 12V input inverter)/21.6V±0.
6. TROUBLESHOOTING . TV Interference You can sometimes get interference on TV & Radio receivers. This may be improved through use of a filter(s) but most problems occur because of Weak Signal to the TV. On some occasions when there is interference on every station, you can try the following: Place the inverter farther from the TV and TV antenna and cable.
1.Check that the battery is fully charged. Recharge, if low Buzzer sounds 3 times and Red LED blinks 3 times every eight seconds Voltage at the DC input terminals reads below; 10.2±0.2VDC(12V version) 20.4±0.4VDC(24V version) 40.8±0.8VDC(48V version) 2. Check that the battery cables are thick enough to carry the required required current length. over Use the thicker cables, if required 3. Tighten connections of the battery input circuit. 1.
7. SPECIFICATIONS – (KS models are not available) Item O U T P U T I N P U T TS-300-12/24 KS500P KS600P TS-800-12/24 TS-1500-12/24 KS2000P Rated Power 300W 500W 600W 800W 1500W 2000W Surge Power 120%
Dimension((L*W*H)cm Packing 44.5*22*9 36*22*15 41*22*15 36*22*15 36*22*15 PCS/CTN 2 1 1 1 1 KGS/CTN 15 10.5 11.5 14.5 15 MEAS(L*W*H)cm 50*32*36 56*35*26 56*35*26 67*34*24 67*34*24 AC Out Receptacle Environment USA, UK, Germany, France, Australia, Brazil, Italy, South Africa, etc.
Appendix I: Remote Control Remote Control Switch ● Power ON/OFF Switch Power ON/OFF switch is to turn the inverter on or off. ● Battery Capacity/Load Voltage indicator Load: Slow flash, 1time per second. Show the approximate connected equipment load level. Five Levels---20%,40%,60%,80%,100%. Battery: Solid green. Show the battery residual capacity. Five Levels---20%,40%,60%,80%,100%.
Appendix II: Recommendations For correct operation, the battery voltage should be between 0.9xVnom and 1.29xVnom where Vnom is 12V, 24V or 48V depending on model, and must be able to supply sufficient current to your inverter.
