1-1623821-8 Tyco Electronics, 1-1623821-8 Datasheet - Page 2

1-1623821-8

Manufacturer Part Number

1-1623821-8

Description

CFH 350 2R2 5% 300MM LEADS

Manufacturer

Tyco Electronics

Series

CFH, CGSr

Datasheets

1.1623821-2.pdf (1 pages)

2.1623821-2.pdf (4 pages)

Specifications of 1-1623821-8

Resistance (ohms)

2.2

Power (watts)

750W

Composition

Wirewound

Tolerance

±5%

Coating, Housing Type

Aluminum Housed

Mounting Feature

Flanges

Size / Dimension

4.331" L x 3.740" W (110.00mm x 95.00mm)

Height

1.181" (30.00mm)

Lead Style

Wire Leads

Package / Case

Rectangular Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

CFH350A2R2J

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Literature No. 1773318

Issued: 09-08

10 cm

135

Dimensions are shown for

reference purposes only.

Application Notes

Pulse Energy

Aluminium Housed Power Resistors

Type CFH Series

Power rating. The dissipation power of a resistor depends also from the mounting position. If the resistor

is mounted onto a surface, the latter takes part positively (if it is large and conductive) or

negatively (if it is small and insulating) to the thermal dissipation.

Data of power rating are referred to a resistor mounted vertically, with terminals in the lower side and

away from the nearest surface at least 10cm, in order to avoid thermal influence from the wall.

Surface temperature rise @ Pn. During the load application, the surface temperature is not

homogeneous, and it is higher on the flat surface of the resistor (surface that in the practical application

shall be fixed to a heat sink or to a metallic surface to help the thermal dissipation).

Max.power rating of a resistor mounted onto a heat sink. Standard heat sink is a common heat sink

(as shown) used for the cooling of semiconductors, with two grooves for components mounting.

The distance between the axes of these two grooves is 80 mm. In this case both heat sink and resistor

will be mounted upright. The length of the heat sink shall be at least 40 mm longer than the resistor’s

body (20 mm for each side).

Power rating of a resistor mounted on a water-cooled heat sink. If the heat sink is water-cooled,

power dissipation increases considerably, and the limiting power rating is due to temperature of the

resistor body. In the case illustrated in the specifications board, the temperature of the heat sink is 40°C

and the resistor’s surface reaches 300°C. In this case too, the length of the heat sink shall be at least

20 mm longer than the resistor’s body.

Absorbed energy @ 250°C ΔT. It represents the quantity of energy stored into the resistor when it

has reached 250°C of temperature rise. The above indication is an index of the thermal capacity of

the resistor.

Absorbed energy in 5”. It gives an index of behaviour of the resistor to short overloads.

Absorbed energy in time ≥0.2”. During a short impulse (from 0 to 2 sec.), the resistor may stand only

the energy that the thermal capacity of the resistance wire is able to absorb. In fact the phenomenon is

too short to let significant heat conduction from wire to filling material. The energy absorbed from the

resistor in this case results from this simple equation:

- QJ is the quantity of energy expressed in Joule, - Cs is the specific heat of the employed resistance alloy

expressed in J g

expressed in °K, reached by the wire during the impulse.

As type and quantity of wire are characteristics of every resistance value and resistor model, the

acceptable temperature limit of wire is relevant.

This limit (@ 25°C) is:

- 500°C for the standard operations (steady state load);

- 800°C for not repeatable overload.

The following graphs show these two conditions for each resistance value and resistor type.

These graphs are irregular owing to the necessity to adapt the commercial dimension of wire to the

resistance range, however they are enough to show the trend of this characteristic.

Should the energy value of an impulse be too close to the limits given from these graphs, it is suitable to

consult the factory for further information concerning the precise value of absorbed energy for the used

resistor.

0.2

CFH1100

CFH750

CFH500

CFH350

Absorbed energy for wire temperature of 500°C

(Impulse time ≤ 0,2”)

-1

Resistance (Ohms)

• °K

Dimensions are in

millimetres unless

otherwise specified.

-1

, - P is the weight of the wire in grams and - ΔT is the rise of temperature,

100

1000

= Cs P ΔT where:

Specifications subject to

change.

22.5

19.5

16.5

13.5

10.5

7.5

CFH1100

0.2

CFH500

CFH350

CFH750

Absorbed energy for wire temperature of 800°C

(Impulse time ≤ 0,2”)

Resistance (Ohms)

passives.tycoelectronics.com

tycoelectronics.com

100

1000

1-1623821-8 Tyco Electronics, 1-1623821-8 Datasheet - Page 2

1-1623821-8

Specifications of 1-1623821-8

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