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1. MODEL 901/801

1. HEAT SINK SUITABLE

UNI HEAT SINK "A-100" + DIN RAIL


Suitable for Model 901-2 Nos. & Model 905-1 No.

Current upto 80Amp @40°C

Thermal Resistance RθSA = 0.65°C/W,

RθSA = 273.83 K/W, ΔT= 75°C

Surface Area : 2630mm²X100mm = 263000mm³

35mm Plastic Din Rail to SSR 10kV Isolation

Heat sink size : 100mm(W) X 87mm(L) X 80mm(H)

Weight : @ 690gms


2. MODEL 803

2. HEAT SINK SUITABLE

UNI HEAT SINK "V-87" + DIN


Suitable for Model 803-1Nos.

Current upto 22Amp @40°C

Thermal Resistance RθSA =2.45°C/W,

RθSA = 275.6 K/W, ΔT= 75°C

Surface Area : 248mm²X87mm = 21576mm³

35mm Plastic Din Rail for 10kV Isolation

Heat sink size : 24mm(W) X 87mm(L) X 30mm(H)

Weight : @ 60gms


3. MODEL 905

3. HEAT SINK SUITABLE

UNI HEAT SINK "E-75" + DIN RAIL


Suitable for Model 905-1Nos.

Current upto 21Amp @40°C

Thermal Resistance RθSA =3°C/W,

RθSA = 278.15 K/W, ΔT= 75°C

Surface Area : 267mm²X75mm = 20025mm³

35mm Plastic Din Rail to SSR 10kV Isolation

Heat sink size : 101mm(W) X 75mm(L) X 15mm(H)

Weight : @ 120gms


4. MODEL 807

4. HEAT SINK SUITABLE

G-12.5-HEAT-SINK-DIN-RAIL.jpg


Suitable for Model 807-1Nos.

Current upto 8Amp @40°C

Thermal Resistance RθSA =6.8°C/W,

RθSA = 279.95 K/W, ΔT= 75°C

Surface Area : 491mm²X30mm = 6137.5mm³

35mm Plastic Din Rail to SSR 10kV Isolation

Heat sink size : 12.5mm(W) X 44mm(L) X 32mm(H)

Weight : @ 40gms


5. MODEL 808

5. HEAT SINK SUITABLE

UNI HEAT SINK "G-30" + DIN


Suitable for Model 808-1Nos.

Current upto 15Amp @40°C

Thermal Resistance RθSA =3.59°C/W,

RθSA = 276.24 K/W, ΔT= 75°C

Surface Area : 491mm²X30mm = 14730mm³

35mm Plastic Din Rail to SSR 10kV Isolation

Heat sink size : 30mm(W) X 44mm(L) X 32mm(H)

Weight : @ 40gms


This is the most important tip that should be considered while selecting a suitable heat sink. Heat sink that is of poor quality or poor design might affect the performance of your system. For instance, a heat sink might not get hot enough to penetrate the solder joints that connect heat transfer devices with the processors. The heat will not be able to pass through the holes and the device would remain inefficient. You also need to consider the size of the heat sink when selecting it. It is true that small heat sinks are suitable for some computers. On the other hand, it is not true that the size of the heat sink is proportionate to the size of the heat sink connected to the processor. So, you need to make sure that you have selected the heat sink in accordance with the requirements of your computer. So, check the dimensions of the heat sink before purchasing it. Once you have decided on the size of the heat sink, it is now the time to select the right design. There are various designs available in the market today. Select one that is suitable for your system. Take into consideration the specifications of your computer. For instance, if your system is made up of one tower with processors, then it is recommended that you select a liquid cooling system for better performance. However, if you have a larger computer system then it is recommended that you select an exhaust fan for better performance. You can find many websites on the Internet which offer you detailed information about the different models of heat sinks available in the market.


 
 
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