Core type Dry type transformers are an important component of any electrical system, providing a safe and efficient means of transferring electrical energy from one circuit to another. By utilizing core type Dry type transformers, electrical systems can be improved in several ways.
First, core type Dry type transformers are designed to be highly efficient, meaning that they can transfer electrical energy with minimal losses. This helps to reduce the amount of energy that is wasted during the transfer process, resulting in lower energy costs and improved system performance.
Second, core type Dry type transformers are designed to be highly reliable, meaning that they can operate for long periods of time without any issues. This helps to reduce the amount of downtime that is experienced in an electrical system, resulting in improved system reliability.
Third, core type Dry type transformers are designed to be highly safe, meaning that they can be used in a variety of applications without any risk of electrical shock or fire. This helps to reduce the risk of injury or property damage, resulting in improved safety for personnel and equipment.
Finally, core type Dry type transformers are designed to be highly cost-effective, meaning that they can be used in a variety of applications without breaking the bank. This helps to reduce the overall cost of an electrical system, resulting in improved cost-efficiency.
Overall, core type Dry type transformers are an important component of any electrical system, providing a safe and efficient means of transferring electrical energy from one circuit to another. By utilizing core type Dry type transformers, electrical systems can be improved in several ways, resulting in improved efficiency, reliability, safety, and cost-efficiency.
The Benefits of Installing an Over Temperature Alarm in Your Electrical System
Installing an over temperature alarm in an electrical system is an important safety measure that can help to protect both personnel and equipment from the risks associated with overheating. Overheating can cause a range of issues, from minor inconveniences to major safety hazards. An over temperature alarm can help to detect and alert personnel to any potential issues before they become serious.
The primary benefit of installing an over temperature alarm is that it can help to prevent the risk of fire. Overheating can cause electrical components to become damaged, leading to sparks and short circuits that can cause fires. An over temperature alarm can detect any potential issues before they become serious, allowing personnel to take action to prevent a fire from occurring.
Another benefit of installing an over temperature alarm is that it can help to protect personnel from the risks associated with overheating. Overheating can cause electrical components to become extremely hot, leading to burns and other injuries. An over temperature alarm can detect any potential issues before they become serious, allowing personnel to take action to prevent any potential injuries.
Type
Rated capacity (KVA)
No-load losses(W)
Voltage combination (KV)
Load losses(W)
No-load current (%)
Short-circuit impedance (%)
S11-M-30
30
100
6,6.3,10,10.5,11/0.4
600
2.3
4.0
S11-M-50
50
130
6,6.3,10,10.5,11/0.4
870
2.0
4.0
S11-M-63
63
150
6,6.3,10,10.5,11/0.4
1040
1.9
4.0
S11-M-80
80
180
6,6.3,10,10.5,11/0.4
1250
1.9
4.0
S11-M-100
100
200
6,6.3,10,10.5,11/0.4
1500
1.8
4.0
S11-M-125
125
240
6,6.3,10,10.5,11/0.4
1800
1.7
4.0
S11-M-160
160
280
6,6.3,10,10.5,11/0.4
2200
1.6
4.0
S11-M-200
200
340
6,6.3,10,10.5,11/0.4
2600
1.5
4.0
S11-M-250
250
400
6,6.3,10,10.5,11/0.4
3050
1.4
4.0
S11-M-315
315
480
6,6.3,10,10.5,11/0.4
3650
1.4
4.0
S11-M-400
400
570
6,6.3,10,10.5,11/0.4
4300
1.3
4.0
S11-M-500
500
680
6,6.3,10,10.5,11/0.4
5100
1.2
4.0
S11-M-630
630
810
6,6.3,10,10.5,11/0.4
6200
1.1
4.5
S11-M-800
800
980
6,6.3,10,10.5,11/0.4
7500
1.0
4.5
S11-M-1000
1000
1150
6,6.3,10,10.5,11/0.4
10300
1.0
4.5
S11-M-1250
1250
1360
6,6.3,10,10.5,11/0.4
12800
0.9
4.5
S11-M-1600
1600
1640
6,6.3,10,10.5,11/0.4
14500
0.8
4.5
S11-M-2000
2000
2280
6,6.3,10,10.5,11/0.4
17820
0.6
5.0
S11-M-2500
2500
2700
6,6.3,10,10.5,11/0.4
20700
0.6
5.0
S11-M-30-
30
90
20,22/0.4
660
2.1
5.5
S11-M-50-
50
130
20,22/0.4
960
2
5.5
S11-M-63-
63
150
20,22/0.4
1145
1.9
5.5
S11-M-80-
80
180
20,22/0.4
1370
1.8
5.5
S11-M-100-
100
200
20,22/0.4
1650
1.6
5.5
S11-M-125-
125
240
20,22/0.4
1980
1.5
5.5
S11-M-160-
160
290
20,22/0.4
2420
1.4
5.5
S11-M-200-
200
330
20,22/0.4
2860
1.3
5.5
S11-M-250-
250
400
20,22/0.4
3350
1.2
5.5
S11-M-315-
315
480
20,22/0.4
4010
1.1
5.5
S11-M-400-
400
570
20,22/0.4
4730
1
5.5
S11-M-500
500
680
20,22/0.4
5660
1
5.5
S11-M-630
630
810
20,22/0.4
6820
0.9
6
S11-M-800
800
980
20,22/0.4
8250
1.8
6
S11-M-1000
1000
1150
20,22/0.4
11330
0.7
6
S11-M-1250
1250
1350
20,22/0.4
13200
0.7
6
S11-M-1600
1600
1630
20,22/0.4
15950
0.6
6
SC(B)11
Rated capacity (KVA)
Voltage combination(KV)
No-load losses(W)
Load losses(W)
No-load current (%)
Short-circuit impedance (%)
SC11-30
30
6,6.3,6.6,10,11/0.4
180
710
2.4
4.0
SC11-50
50
6,6.3,6.6,10,11/0.4
250
1000
2.4
4.0
SC11-80
80
6,6.3,6.6,10,11/0.4
340
1380
1.8
4.0
SC11-100
100
6,6.3,6.6,10,11/0.4
360
1570
1.8
4.0
SC11-125
125
6,6.3,6.6,10,11/0.4
420
1850
1.6
4.0
SCB11-160
160
6,6.3,6.6,10,11/0.4
490
2130
1.6
4.0
SCB11-200
200
6,6.3,6.6,10,11/0.4
560
2530
1.4
4.0
SCB11-250
250
6,6.3,6.6,10,11/0.4
650
2760
1.4
4.0
SCB11-315
315
6,6.3,6.6,10,11/0.4
790
3470
1.2
4.0
SCB11-400
400
6,6.3,6.6,10,11/0.4
880
3990
1.2
4.0
SCB11-500
500
6,6.3,6.6,10,11/0.4
1050
4880
1.2
4.0
SCB11-630
630
6,6.3,6.6,10,11/0.4
1210
5880
1.0
4.0
SCB11-630
630
6,6.3,6.6,10,11/0.4
1170
5960
1.0
6.0
SCB11-800
800
6,6.3,6.6,10,11/0.4
1370
6960
1.0
6.0
SCB11-1000
1000
6,6.3,6.6,10,11/0.4
1590
8130
1.0
6.0
SCB11-1250
1250
6,6.3,6.6,10,11/0.4
1880
9690
1.0
6.0
SCB11-1600
1600
6,6.3,6.6,10,11/0.4
2210
11730
1.0
6.0
SCB11-2000
2000
6,6.3,6.6,10,11/0.4
2720
14450
0.8
6.0
SCB11-2500
2500
6,6.3,6.6,10,11/0.4
3200
17170
0.8
6.0
Finally, installing an over temperature alarm can help to protect equipment from the risks associated with overheating. Overheating can cause electrical components to become damaged, leading to costly repairs or replacements. An over temperature alarm can detect any potential issues before they become serious, allowing personnel to take action to prevent any potential damage.
In conclusion, installing an over temperature alarm in an electrical system is an important safety measure that can help to protect both personnel and equipment from the risks associated with overheating. An over temperature alarm can help to detect and alert personnel to any potential issues before they become serious, allowing personnel to take action to prevent a fire, injuries, or damage from occurring.
First, core type Dry type transformers are designed to be highly efficient, meaning that they can transfer electrical energy with minimal losses. This helps to reduce the amount of energy that is wasted during the transfer process, resulting in lower energy costs and improved system performance.
Second, core type Dry type transformers are designed to be highly reliable, meaning that they can operate for long periods of time without any issues. This helps to reduce the amount of downtime that is experienced in an electrical system, resulting in improved system reliability.
Third, core type Dry type transformers are designed to be highly safe, meaning that they can be used in a variety of applications without any risk of electrical shock or fire. This helps to reduce the risk of injury or property damage, resulting in improved safety for personnel and equipment.
In conclusion, installing an over temperature alarm in an electrical system is an important safety measure that can help to protect both personnel and equipment from the risks associated with overheating. An over temperature alarm can help to detect and alert personnel to any potential issues before they become serious, allowing personnel to take action to prevent a fire, injuries, or damage from occurring.