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Matters to Be Observed When Using This Product

 This product (fixed resistor) is not designed for use in specific environments. Using the resistor in the following specific

environments or service conditions may affect the performance/reliability of the resistor. Avoid using it in such specific 

environments. If you intend to use the resistor in such environments, checking the performance, reliability, etc., of the 

product sufficiently is your own responsibility.
(1) Used in liquid, such as water, oil, chemicals, and organic solvents.

(2) Used in a place exposed to direct sunlight, an outdoor place with no shielding, or a dusty place.

(3) Used in a place where the product is heavily exposed to sea breeze or a corrosive gas, such as Cl

2

, H

2

S, NH

3

, SO

2

,

or NO

X

.

(4) Used in an environment where static electricity and electromagnetic waves are strong.

(5) Located close to a heating component or a flammable material, such as a vinyl cable placed near the product.

(6) Sealed or coated with a resin.
(7) Solder flux of the resistor soldered with no-clean type solder, etc., is cleansed with a solvent, water, or a water-soluble 

cleaner, etc. (Water-soluble flux residues have a particularly large influence on a resistor.)

(8) Used in a place where dew concentrates on the product.

(9) Used in a contaminated state.

(Example: Touching the resistor mounted on a printed board leaving sebum on the resistor (improper handling))

 Sealing the resistor with a resin in a resin potting process, damp-proofing process, etc., applies excessive stress to the

resistor, which may cause the internal electrodes a connection problem. In such cases, the proper operation of the 

resistor is not guaranteed. If you intend to use the resistor in such environments, checking the performance, reliability, etc., 

of the product sufficiently is your own responsibility.

 Do not leave the resistor immersed in a solvent for a long time. When using the resistor immersed in a solvent, confirm

the operation of the product mounted on the board.

 When a cleaning solution or cleaning condition for cleaning the printed board or a drying condition for drying the printed

board after soldering the resistor is improper, it may have a negative effect on the performance/reliability of the resistor. 

Confirming these conditions sufficiently is your own responsibility. Also examine the effects of soiled cleaning agent, 

cleaning residues, and post-cleaning contaminations, and control for these effects properly.

 When the resistor is heating abnormally or emitting a smell, stop using the resistor immediately, for example, turn off

the main power supply of the device.

Also, keep your face and hands away from the product as it may become hot and cause burns.

 The resistor is so thin that it may break easily when subjected to impact. Before putting the resistor in use, confirm that

the resistor has not been broken by impact that applied thereto when mounted on the printed board. Applying impact to 

the resistor or pinching the resistor with a hard tool (pliers, tweezers, etc.) may chip the resistor or its protective film, 

which affects its performance. Be careful to avoid such cases.

 Do not reuse a resistor having been used on a printed board and removed therefrom. Do not touch the resistor with your

bare hands.

 Be careful not to drop the resistor on the floor, etc. The resistor is likely to suffer mechanical or electrical damage when

dropped on the floor. Avoid using said resistor.

 The resistor may have its resistance value changed due to electrostatic discharge (ESD). Take ESD prevention measures

when handling the resistor. ESD prevention measures include an environment where static electricity is not likely to be 

generated (recommended RH: 40% to 60%), by wearing an earth band, conductive gloves, etc., grounding the device in 

which the resistor is incorporated, and placing a conductive mat, etc., on a work platform.

 It is guaranteed that a resistor not exposed to any stress will have its proper resistance value. Any stress or pressure

applied to the resistor may cause its resistance value to change. Examine and evaluate the characteristics of the resistor 

sufficiently before using it.

30-Jun-23

Matters to Be Observed When Using This Product

(Common mode noise filter)

 

Use environments and cleaning conditions

 

Response to anomalies and handling conditions

Содержание EXC24CH

Страница 1: ... filter 2 1 25 1 00 0 50 L W H Coupled type C Code Suffix H High speed differential transmission for Gbps U Embossed carrier taping 4 mm pitch 5 000 pcs Code Type The first two digits are significant figure of impedance value and the third one denotes the number of zeros following Product code Code Dimensions mm Code Characteristics Nominal impedance Code Packing form Terminals Common Mode Noise F...

Страница 2: ...tice Ask factory for the current technical specifications before purchase and or use Should a safety concern arise regarding this product please be sure to contact us immediately 50 Ω 25 13 Ω max 8 Typ 5 Common mode attenuation characteristics Scc21 differential mode insertion loss characteristics Sdd21 reference data A Common mode B Differential mode 1000 100 10 1 0 1 1000 100 10 1 10000 1000 100...

Страница 3: ...mmediately 1 Apr 20 30 Impedance change 60 95 RH 500 h 30 Impedance change 60 95 RH Rated current 500 h Load life in humidity Rated voltage 30 Impedance change 260 10 s 30 Impedance change 40 30 min 85 30 min 200 cycles 30 Impedance change 85 500 h Overload Resistance to soldering heat Rapid change of temperature High temperature exposure Damp heat Steady state Within specified tolerance 25 Perfom...

Страница 4: ...ed by UN numbers UN classifications etc does not apply to this product In addition when exporting products product specifications and technical information described in this catalog please comply with the laws and regulations of the countries to which the products are exported especially those concerning security export control Each model of this product complies with the RoHS Directive Restrictio...

Страница 5: ...nted board or a drying condition for drying the printed board after soldering the resistor is improper it may have a negative effect on the performance reliability of the resistor Confirming these conditions sufficiently is your own responsibility Also examine the effects of soiled cleaning agent cleaning residues and post cleaning contaminations and control for these effects properly When the res...

Страница 6: ...ing can be performed Check and set individual conditions under which stable soldering can be performed Heat the resistor in advance so that a difference between the soldering temperature and the temperature of the resistor surface is reduced to 100 or lower When dipping the soldered resistor in a solvent etc to cool the resistor rapidly ensure that the temperature difference between the resistor a...

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