There are 4 models of Ion boilers, depending on the heated area:

from 0 till 60-90 m2 (depending on heat isolation of the building)**Ion boiler 3-5**from 0 till 115-130 m2 (depending on heat isolation of the building)**Ion boiler 6-9**from 125 till 250 m2 (depending on heat isolation of the building)**Ion boiler 10-20**from 250 till 400 m2 (depending on heat isolation of the building)**Ion boiler 20-30**

__Example: every hour (when Ion boiler is switched on) it is "working" and consuming electricity for 15 - 20 minutes.__

*Depending on the size of building, the amount of heat carrier in the system, Ion boilers are in "working" (and consuming electricity) in average 1/3 - 1/4 of the time.*

**Ion boiler 3-5**The choice of model and capacity of the ion boiler depends on the size of the heated space. Below is a table on which it is possible to determine the capacity of the boiler and the necessary operating current:

Ion boiler power | Heated area (height up to 3m and 80W heat loss on 1m2) No connected to heat system water boiler | The required operating current boiler in one phase (without other appliances) | Required power cord |

3 kW | 37,5 m^{2}^{ } | 15 A | 3*4 mm ^{2} |

4 kW | 50 m^{2 } | 20 A | 3*4 mm ^{2 } |

5 kW | 62,5 m^{2 } | 25 A | 3*4 mm ^{2 } |

**TECHNICAL PARAMETERS**

№ | Parameter | Ed. | Data |

1. | Rated voltage single-phase AC In | V | 230 ± 10% |

2. | The minimum frequency of the AC | Hz | 50 |

3. | Operating current, not more than | A | 25 |

4. | Nominal power | kW | 5 |

5. | Applied operating power, at a temperature of +15°C | kW | 3-5 |

6. | Heat carrier EKO E40 with conductivity not more than | µS | 205 |

7. | The maximum temperature at the outlet of the ion boiler | °C | 90 |

8. | The work temperature at the outlet of the ion boiler | °C | 70 |

9. | The size, length / height / diamete | mm | 260/95/40 |

10. | Weight, not more than | kg | 2,00 |

11. | Class of protection against electric shock | - | I |

12. | The degree of protection from moisture | - | IP44 |

**Ion boiler 6-9**The choice of model and capacity of the ion boiler depends on the size of the heated space. Below is a table on which it is possible to determine the capacity of the boiler and the necessary operating current:

Ion boiler power | Heated area (height up to 3m and 80W heat loss on 1m2) | The required operating current boiler in each phase (without other appliances) | Required power cord | |

No connected to heat system water boiler | Connected to heat system water boiler (not more than 150 l) | |||

6 kW | 75 m^{2} | 60 m^{2} | 10 A | 5*4,5 mm ^{2} |

7 kW | 87,5 m^{2} | 70 m^{2} | 12 A | 5*4,5 mm ^{2} |

8 kW | 100 m^{2} | 80 m^{2} | 14 A | 5*4,5 mm ^{2} |

9 kW | 112,5 m^{2} | 90 m^{2} | 15 A | 5*4,5 mm ^{2} |

**TECHNICAL PARAMETERS**

№ | Parameter | Ed. | Data |

1. | Rated voltage three-phase AC In | V | 400 ± 10% |

2. | The minimum frequency of the AC | Hz | 50 |

3. | Operating current, not more than | A | 15 |

4. | Nominal power | kW | 9 |

5. | Applied operating power, at a temperature of +15°C | kW | 6-9 |

6. | Heat carrier EKO E40 with conductivity not more than | µS | 230 |

7. | The maximum temperature at the outlet of the ion boiler | °C | 90 |

8. | The work temperature at the outlet of the ion boiler | °C | 70 |

9. | The size, length / height / diamete | mm | 235/160/125 |

10. | Weight, not more than | kg | 4,00 |

11. | Class of protection against electric shock | - | I |

12. | The degree of protection from moisture | - | IP44 |

**Ion boiler 10-20**The choice of model and capacity of the ion boiler depends on the size of the heated space. Below is a table on which it is possible to determine the capacity of the boiler and the necessary operating current:

Ion boiler power | Heated area (height up to 3m and 80W heat loss on 1m2) | The required operating current boiler in each phase (without other appliances) | Required power cord | |

No connected to heat system water boiler | Connected to heat system water boiler (not more than 150 l) | |||

10 kW | 125 m^{2} | 100 m^{2} | 17 A | 5*6 mm ^{2} |

11 kW | 137,5 m^{2} | 110 m^{2} | 19 A | 5*6 mm ^{2} |

12 kW | 150 m^{2} | 120 m^{2} | 20 A | 5*6 mm ^{2} |

13 kW | 162,5 m^{2} | 130 m^{2} | 22 A | 5*6 mm ^{2} |

14 kW | 175 m^{2} | 140 m^{2} | 24 A | 5*6 mm ^{2} |

15 kW | 187,5 m^{2} | 150 m^{2} | 25 A | 5*6 mm ^{2} |

16 kW | 200 m^{2} | 160 m^{2} | 27 A | 5*6 mm ^{2} |

17 kW | 212,5 m^{2} | 170 m^{2} | 29 A | 5*6 mm ^{2} |

18 kW | 225 m^{2} | 180 m^{2} | 30 A | 5*6 mm ^{2} |

19 kW | 237,5 m^{2} | 190 m^{2} | 32 A | 5*6 mm ^{2} |

20 kW | 250 m^{2} | 200 m^{2} | 34 A | 5*6 mm ^{2} |

**TECHNICAL PARAMETERS**

№ | Parameter | Ed. | Data |

1. | Rated voltage three-phase AC In | V | 400 ± 10% |

2. | The minimum frequency of the AC | Hz | 50 |

3. | Operating current, not more than | A | 34 |

4. | Nominal power | kW | 20 |

5. | Applied operating power, at a temperature of +15°C | kW | 10-20 |

6. | Heat carrier EKO E40 with conductivity not more than | µS | 330 |

7. | The maximum temperature at the outlet of the ion boiler | °C | 90 |

8. | The work temperature at the outlet of the ion boiler | °C | 70 |

9. | The size, length / height / diamete | mm | 340/160/125 |

10. | Weight, not more than | kg | 6,00 |

11. | Class of protection against electric shock | - | I |

12. | The degree of protection from moisture | - | IP44 |

**Ion boiler 20-30**The choice of model and capacity of the ion boiler depends on the size of the heated space. Below is a table on which it is possible to determine the capacity of the boiler and the necessary operating current:

Ion boiler power | Heated area (height up to 3m and 80W heat loss on 1m2) | The required operating current boiler in each phase (without other appliances) | Required power cord | |

No connected to heat system water boiler | Connected to heat system water boiler (not more than 150 l) | |||

21 kW | 262,5 m^{2} | 210 m^{2} | 35 A | 5*6 mm ^{2} |

22 kW | 275 m^{2} | 220 m^{2} | 37 A | 5*6 mm ^{2} |

23 kW | 287,5 m^{2} | 230 m^{2} | 39 A | 5*6 mm ^{2} |

24 kW | 300 m^{2} | 240 m^{2} | 40 A | 5*6 mm ^{2} |

25 kW | 312,5 m^{2} | 250 m^{2} | 42 A | 5*6 mm ^{2} |

26 kW | 325 m^{2} | 260 m^{2} | 44 A | 5*6 mm ^{2} |

27 kW | 337,5 m^{2} | 270 m^{2} | 45 A | 5*6 mm ^{2} |

28 kW | 350 m^{2} | 280 m^{2} | 47 A | 5*6 mm ^{2} |

29 kW | 362,5 m^{2} | 290 m^{2} | 49 A | 5*6 mm ^{2} |

30 kW | 375 m^{2} | 300 m^{2} | 50 A | 5*6 mm ^{2} |

**TECHNICAL PARAMETERS**

№ | Parameter | Ed. | Data |

1. | Rated voltage three-phase AC In | V | 400 ± 10% |

2. | The minimum frequency of the AC | Hz | 50 |

3. | Operating current, not more than | A | 50 |

4. | Nominal power | kW | 30 |

5. | Applied operating power, at a temperature of +15°C | kW | 20-30 |

6. | Heat carrier EKO E40 with conductivity not more than | µS | 450 |

7. | The maximum temperature at the outlet of the ion boiler | °C | 90 |

8. | The work temperature at the outlet of the ion boiler | °C | 70 |

9. | The size, length / height / diamete | mm | 420/160/125 |

10. | Weight, not more than | kg | 10,00 |

11. | Class of protection against electric shock | - | I |

12. | The degree of protection from moisture | - | IP44 |