Diesel Generating Sets

Durable, reliable and efficient, IMPAC generators are built strong to meet the demanding needs of mission critical industries like telecom, aviation and hospitals.

About Our Generators

IMPAC Diesel Generators have been designed and manufactured specifically to cater to industries that demand high quality and reliability. The grueling conditions in which IMPAC Generators are deployed range from -30C to +55C, and up to 4,000 meters above sea level and are perfectly suitable where power uptime is essential.

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Technical Specifications

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IMPAC Model	Engine Model	Alternator Model	kVA (Prime) Represents the maximum power output in kilovolt-amperes that a generator can continuously supply under normal operating conditions.	kW (Prime) Indicates the maximum kilowatts of real power that a generator can deliver continuously under standard conditions.	kVA (Stand-by) The maximum kilovolt-amperes a generator can provide for short periods when there is a main power failure or when the main power is off.	kW (Stand-by) Specifies the peak kilowatts of real power a generator can supply temporarily during a power outage or similar emergency.
QC2R9PL	403D-11G	LSA40VS2	9	7.20	9.50	7.60
QC2R13L	403D-15G	LSA40VS2	13	10.40	14.00	11.20
QC2R17L	404D-22G	LSA404S	17	13.60	18.00	14.40
QC2R20L	404D-22TG	LSA404S	20	16.00	21.50	17.20
QC2R27L	1103A-33G	LSA42.2M7	27	21.60	30.00	24.00
QC2R30L	1103A-33G	LSA42.2M7	30	24.00	33.00	26.40
QC2R35L	1103A-33TG1	LSA43.2S25	35	28.00	39.00	31.20
QC2R40L	1103A-33TG2	LSA43.2M45	40	32.00	44.00	35.20
QC2R60L	1103A-33TG2	LSA43.2M45	60	48.00	63.00	50.40
QC2R80L	1104A-44TG2	LSA44.2VS45	80	64.00	88.00	70.40
QC2R100L	1104A-44TAG2	LSA44.2VS45	100	80.00	110.00	88.00

Cylinder	Engine Power kWm/Net	Compression Ratio	Bore & Stroke (mm)	Displacement (Ltrs)	Lube Oil Capacity (Ltrs)	Coolant Capacity (Ltrs)	Fuel Consumption at 50% (Ltrs/hr)	Fuel Consumption at 100% (Ltrs/hr)	Air Effeciency (%)
3	8.40	23:1	77 x 81	1.13	4.90	5.20	1.70	3.00	82.70
3	12.00	22.5:1	84 x 90	1.50	6.00	6.98	2.00	3.60	87.50
4	18.40	23.3:1	84 x 100	2.20	6.98	6.98	2.90	5.40	87.90
4	18.40	23.3:1	84 x 100	2.20	6.98	6.98	2.90	5.40	87.10
3	27.70	19.25:1	105 x 127	3.30	7.90	10.20	3.90	7.10	88.90
3	27.70	19.25:1	105 x 127	3.30	7.90	10.20	3.90	7.10	89.00
3	41.30	17.25:1	105 x 127	3.30	7.90	10.20	5.70	10.70	87.90
3	41.30	17.25:1	105 x 127	3.30	7.90	10.20	5.70	10.70	89.00
3	53.80	17.25:1	105 x 127	3.30	10.00	12.00	7.70	13.70	89.00
4	71.90	17.25:1	105 x 127	4.40	13.20	16.00	9.20	18.00	90.50
4	89.00	18.2:1	105 x 127	4.41	8.00	12.60	11.20	22.60	90.80
3	8.40	23:1	77 x 81	1.13	4.90	5.20	1.70	3.00	82.70

IMPAC Model

QC2R9PL

Engine Model

403D-11G

Alternator Model

LSA40VS2

kVA (Prime)

kW (Prime)

7.20

kVA (Stand-by)

9.50

kW (Stand-by)

7.60

IMPAC Model

QC2R13L

Engine Model

403D-15G

Alternator Model

LSA40VS2

kVA (Prime)

kW (Prime)

10.40

kVA (Stand-by)

14.00

kW (Stand-by)

11.20

IMPAC Model

QC2R17L

Engine Model

404D-22G

Alternator Model

LSA404S

kVA (Prime)

kW (Prime)

13.60

kVA (Stand-by)

18.00

kW (Stand-by)

14.40

IMPAC Model

QC2R20L

Engine Model

404D-22TG

Alternator Model

LSA404S

kVA (Prime)

kW (Prime)

16.00

kVA (Stand-by)

21.50

kW (Stand-by)

17.20

IMPAC Model

QC2R27L

Engine Model

1103A-33G

Alternator Model

LSA42.2M7

kVA (Prime)

kW (Prime)

21.60

kVA (Stand-by)

30.00

kW (Stand-by)

24.00

IMPAC Model

QC2R30L

Engine Model

1103A-33G

Alternator Model

LSA42.2M7

kVA (Prime)

kW (Prime)

24.00

kVA (Stand-by)

33.00

kW (Stand-by)

26.40

IMPAC Model

QC2R35L

Engine Model

1103A-33TG1

Alternator Model

LSA43.2S25

kVA (Prime)

kW (Prime)

28.00

kVA (Stand-by)

39.00

kW (Stand-by)

31.20

IMPAC Model

QC2R40L

Engine Model

1103A-33TG2

Alternator Model

LSA43.2M45

kVA (Prime)

kW (Prime)

32.00

kVA (Stand-by)

44.00

kW (Stand-by)

35.20

IMPAC Model

QC2R60L

Engine Model

1103A-33TG2

Alternator Model

LSA43.2M45

kVA (Prime)

kW (Prime)

48.00

kVA (Stand-by)

63.00

kW (Stand-by)

50.40

IMPAC Model

QC2R80L

Engine Model

1104A-44TG2

Alternator Model

LSA44.2VS45

kVA (Prime)

kW (Prime)

64.00

kVA (Stand-by)

88.00

kW (Stand-by)

70.40

IMPAC Model

QC2R100L

Engine Model

1104A-44TAG2

Alternator Model

LSA44.2VS45

kVA (Prime)

100

kW (Prime)

80.00

kVA (Stand-by)

110.00

kW (Stand-by)

88.00

Cylinder

Engine Power kWm/Net

8.40

Compression Ratio

23:1

Bore & Stroke (mm)

77 x 81

Displacement (Ltrs)

1.13

Lube Oil Capacity (Ltrs)

4.90

Coolant Capacity (Ltrs)

5.20

Fuel Consumption at 50% (Ltrs/hr)

1.70

Fuel Consumption at 100% (Ltrs/hr)

3.00

Air Effeciency (%)

82.70

Cylinder

Engine Power kWm/Net

12.00

Compression Ratio

22.5:1

Bore & Stroke (mm)

84 x 90

Displacement (Ltrs)

1.50

Lube Oil Capacity (Ltrs)

6.00

Coolant Capacity (Ltrs)

6.98

Fuel Consumption at 50% (Ltrs/hr)

2.00

Fuel Consumption at 100% (Ltrs/hr)

3.60

Air Effeciency (%)

87.50

Cylinder

Engine Power kWm/Net

18.40

Compression Ratio

23.3:1

Bore & Stroke (mm)

84 x 100

Displacement (Ltrs)

2.20

Lube Oil Capacity (Ltrs)

6.98

Coolant Capacity (Ltrs)

6.98

Fuel Consumption at 50% (Ltrs/hr)

2.90

Fuel Consumption at 100% (Ltrs/hr)

5.40

Air Effeciency (%)

87.90

Cylinder

Engine Power kWm/Net

18.40

Compression Ratio

23.3:1

Bore & Stroke (mm)

84 x 100

Displacement (Ltrs)

2.20

Lube Oil Capacity (Ltrs)

6.98

Coolant Capacity (Ltrs)

6.98

Fuel Consumption at 50% (Ltrs/hr)

2.90

Fuel Consumption at 100% (Ltrs/hr)

5.40

Air Effeciency (%)

87.10

Cylinder

Engine Power kWm/Net

27.70

Compression Ratio

19.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

3.30

Lube Oil Capacity (Ltrs)

7.90

Coolant Capacity (Ltrs)

10.20

Fuel Consumption at 50% (Ltrs/hr)

3.90

Fuel Consumption at 100% (Ltrs/hr)

7.10

Air Effeciency (%)

88.90

Cylinder

Engine Power kWm/Net

27.70

Compression Ratio

19.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

3.30

Lube Oil Capacity (Ltrs)

7.90

Coolant Capacity (Ltrs)

10.20

Fuel Consumption at 50% (Ltrs/hr)

3.90

Fuel Consumption at 100% (Ltrs/hr)

7.10

Air Effeciency (%)

89.00

Cylinder

Engine Power kWm/Net

41.30

Compression Ratio

17.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

3.30

Lube Oil Capacity (Ltrs)

7.90

Coolant Capacity (Ltrs)

10.20

Fuel Consumption at 50% (Ltrs/hr)

5.70

Fuel Consumption at 100% (Ltrs/hr)

10.70

Air Effeciency (%)

87.90

Cylinder

Engine Power kWm/Net

41.30

Compression Ratio

17.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

3.30

Lube Oil Capacity (Ltrs)

7.90

Coolant Capacity (Ltrs)

10.20

Fuel Consumption at 50% (Ltrs/hr)

5.70

Fuel Consumption at 100% (Ltrs/hr)

10.70

Air Effeciency (%)

89.00

Cylinder

Engine Power kWm/Net

53.80

Compression Ratio

17.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

3.30

Lube Oil Capacity (Ltrs)

10.00

Coolant Capacity (Ltrs)

12.00

Fuel Consumption at 50% (Ltrs/hr)

7.70

Fuel Consumption at 100% (Ltrs/hr)

13.70

Air Effeciency (%)

89.00

Cylinder

Engine Power kWm/Net

71.90

Compression Ratio

17.25:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

4.40

Lube Oil Capacity (Ltrs)

13.20

Coolant Capacity (Ltrs)

16.00

Fuel Consumption at 50% (Ltrs/hr)

9.20

Fuel Consumption at 100% (Ltrs/hr)

18.00

Air Effeciency (%)

90.50

Cylinder

Engine Power kWm/Net

89.00

Compression Ratio

18.2:1

Bore & Stroke (mm)

105 x 127

Displacement (Ltrs)

4.41

Lube Oil Capacity (Ltrs)

8.00

Coolant Capacity (Ltrs)

12.60

Fuel Consumption at 50% (Ltrs/hr)

11.20

Fuel Consumption at 100% (Ltrs/hr)

22.60

Air Effeciency (%)

90.80

Cylinder

Engine Power kWm/Net

8.40

Compression Ratio

23:1

Bore & Stroke (mm)

77 x 81

Displacement (Ltrs)

1.13

Lube Oil Capacity (Ltrs)

4.90

Coolant Capacity (Ltrs)

5.20

Fuel Consumption at 50% (Ltrs/hr)

1.70

Fuel Consumption at 100% (Ltrs/hr)

3.00

Air Effeciency (%)

82.70

Frequently Asked Questions

What is the difference between kW and kVa?

kW (kilowatts) measures actual power output, while kVA (kilovolt-amperes) measures apparent power, including power lost due to inefficiency. The ratio of kW to kVA is called the power factor.

What is the difference between standby, continuous, and prime power ratings?

Standby: Used for emergency power during utility outages, not designed for continuous use.

Continuous: Can run indefinitely at a constant load.
‍
Prime: Suitable for continuous operation but with variable loads up to a defined maximum.

If I am interested in a generator that is not the voltage I need, can the voltage be changed?

Yes, many generators can be reconfigured or equipped with additional components to adjust their output voltage.

What does an Automatic Transfer Switch do?

An Automatic Transfer Switch (ATS) automatically switches the power source from the utility to the generator during a power outage, ensuring continuous power supply.

Can a generator I am looking at parallel with one I already own?

Paralleling is possible if both generators have compatible control systems and specifications. It's advisable to check with the manufacturer for compatibility.

Can you convert a 60 Hz generator to 50 Hz?

Some generators are capable of operating at either 60 Hz or 50 Hz. Whether a specific model can be converted depends on its design; consult the manufacturer for details.

How do I determine what size generator I need?

Calculate the total power requirements by adding up the wattage of all devices that need power. Consider both running and starting power needs, especially for equipment with motors or compressors, to determine the appropriate generator size.