breaking- resister-1
breaking- resister-2

Braking Resistor

Two terminal extensions are fixed on both ends of a ceramic tube on whose surface winds wave-shaped alloy resistance wire and a high temperature-resistant and fireproof coating are applied. The ceramic tube can function as resistance wire skeleton and heat radiator as well . This product can be customized to special needs of customers and applicable to simulation load test, equipend discharge, automated control and inverter’s energy loss brake.

Category:

Product Description

Product introduction
The wirewound resistor is made by fixing two leading-out terminals on the cylindrical ceramic tube which is coiled by bandlet and wave shape alloy resistance wire. The surface of the ceramic tube is coated by layer of coating which is resistant to flaming and high temperature .As the framework of the resistance wire. The ceramic tube can also work as the radiator .this product can be made to order .It is suitable for simulated load test .the discharging of equipment .automatic control and the dynamic braking of the transducer .

Two terminal extensions are fixed on both ends of a ceramic tube on whose surface winds wave-shaped alloy resistance wire and a high temperature-resistant and fireproof coating are applied. The ceramic tube can function as resistance wire skeleton and heat radiator as well . This product can be customized to special needs of customers and applicable to simulation load test, equipped discharge, automated control and inverter’s energy loss brake.

Technical Data:
Rated Power Range: 50W-2500W
Voltage Range: 0.5KV—10KV
Resistance Range: 1R-1KR
Dielectric Voltage: AC2.5KV-20KV/1min 50Hz
IP Class: IP00
Vibration: 1g
Rated Temperature Rise: 375℃
Temperature Coefficient: 80-400ppm/℃
Carrier Material: 0Cr25AL5/Ni80Cr20 Optional
Advantage: Work in high voltage
Disadvantage: Inferior vibration
Packing: Paper box

Rated power (w) Dimension(mm)
L1(±2) L2(±5) L3(±3) D(±2) B B1 H H1(±3) N ¢d O
50 102 124 146 28 6.5 28 28 61 10 4.5 1.2
60 102 124 146 28 6.5 28 28 61 10 4.5 1.2
80 152 174 196 28 6.5 28 28 61 10 4.5 1.2
100 182 204 226 28 6.5 28 28 61 10 4.5 1.2
120 182 204 226 28 6.5 28 28 61 10 4.5 1.2
150 195 217 239 40 8 40 41 81 12 5.5 2.0
200 195 217 239 40 8 40 41 81 12 5.5 2.0
300 282 304 326 40 8 40 41 81 12 5.5 2.0
400 282 304 326 40 8 40 41 81 12 5.5 2.0
500 316 338 360 50 8 50 45 101 16 6 2.0
600 345 367 389 40 8 40 41 81 12 5.5 2.0
750 316 338 360 50 8 50 45 101 16 6 2.0
1000 300 325 350 60 8.5 60 60 119 16 6 2.0
1200 415 440 465 60 8.5 60 60 119 16 6 2.0
1500 415 440 465 60 8.5 60 60 119 16 6 2.0
2000 510 535 560 60 8.5 60 60 119 16 6 2.0
2500 600 625 650 60 8.5 60 60 119 16 6 2.0

wiring diagram for inverter system
recommended brake assembly matching specification

Inverter Braking Unit Braking resistor
Voltage(V) Motor(KW) Model Quantity(PCS) Recommed resistor value Resisitor specification Quantity(PCS)
220V 0.75KW Built-in 80W200Ω 80W200Ω 1
1.5KW Built-in 200W100Ω 200W100Ω 1
2.2KW Built-in 300W70Ω 300W70Ω 1
3.7KW Built-in 400W40Ω 400W40Ω 1
380V 0.75KW Built-in 80W750Ω 80W750Ω 1
1.5KW Built-in 200W400Ω 200W400Ω 1
2.2KW Built-in 300W250Ω 300W250Ω 1
3.7KW Built-in 400W150Ω 400W150Ω 1
5.5KW Built-in 600W100Ω 600W100Ω 1
7.5KW Built-in 800W75Ω 800W75Ω 1
11KW Built-in 1000W50Ω 1000W50Ω 1
15KW Built-in 1500W40Ω 1500W40Ω 1
18.5KW 4030 1 2500W35Ω 2500W35Ω 1
22KW 4030 1 3000W27.2Ω 3000W27.2Ω 1
30KW 4030 1 5000W19.2Ω 2500W38.4Ω 2
37KW 4045 1 6000W16Ω 2000W48Ω 3
45KW 4045 2 9600W13.6Ω 2500W54.4Ω 4
55KW 4030 2 12000W10Ω 2000W60Ω 6
75KW 4045 2 19200W6.8Ω 2500W54.4Ω 8
Braking Resistor Box Quantity(PCS)
90KW 4030 3 9600W20Ω 3
100KW 4220 1 9600W20Ω 3
132-160KW 4220 1 40KW3.4Ω 1
185-220KW 4220 1 60KW3.2Ω 1
250-315KW 4220 2 40KW4.5Ω 2
315-600KW 4220 3 60KW3Ω 3