Document
Metal Film Fixed Resistor
Specifications:
Type Rated Power Max. Working Voltage Max. Overload Voltage Dielectric Withstanding Voltage Rated Ambient Temp Operating Temp. Range Resistance Tolerance Resistance Range : MCMF : 0.25W at 70°C : 250V : 500V : 500V : 70°C : -55°C to +155°C : ±1% : 10Ω to 1MΩ
Power Rating:
Resistors shall have a power rating based on continuous full load operation at an ambient temperature of 70°C. For temperature in excess of 70°C, the load shall be derated as shown in the below figure.
Voltage Rating:
Resistors shall have a rated direct-current (DC) continuous working voltage or an approximate sine-wave root-mean-square (RMS) alternating-current (AC) continuous working voltage at commercialline frequency and waveform curresponding to the power rating , as determined from the following formula : RCWV = √P × R Were : RCWV = R ated DC or RMS AC continuous working voltage at commercial-line frequency and waveform (V) P = Power Rating (W) R = Nominal Resistance (Ω) In no case shall the rated DC or RMS AC continuous working voltage be greater than the applicable maximum value.
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Metal Film Fixed Resistor
Construction
No 1 2 3 4 5 6 7 Name Basic Body Resistance Film End Cap Lead Wire Joint Coating Colour Code Material Rod Type Ceramics Metal Film Steel (Tin plated iron surface) Annealed copper wire coated with tin By Welding Insulated epoxy resin ( Colour : Sky Blue ) Epoxy Resin
Metal Film Fixed Resistors
Characteristics DC. resistance Limits Must be within the specified tolerance Test Methods( JIS C 5201-1 ) The limit of error of measuring apparatus shall not exceed allowable range or 1% of resistance tolerance Resistors shall be clamped in the trough of a 90° metallic V-block or foil method use a metal foil shall be wrapped closely around the body of the resistor. After that shall be tested at DC potential respectively specified in the above list for 60 +10/-0 secs. Resistors shall be clamped in the trough of a 90° metallic V-block or foil method use a metal foil shall be wrapped closely around the body of the resistor. After that shall be tested at AC potential respectively specified in the table 1. for 60 +10/-0 secs. Natural resistance change per temp. degree centigrade Temperature coefficient Within the temperature coefficient specified below :± 50 PPM/°C Max. R2-R1 R1(t2-t1) × 106 (PPM/°C)
Insulation resistance
Insulation resistance is10,000MΩ Min.
Dielectric withstanding voltage
No evidence of flashover mechanical damage, arcing or insulation break down
R1: Resistance value at room temperature (t1) R2: Resistance value at room temp. plus 100°C (t2) Short time overload Resistance change rate is ± (0.5% + 0.05Ω) Max. with no evidence of mechanical damage Permanent resistance change after the application of a potential of 2.5 times RCWV for 5 seconds Direct load: Resistance to a 2.5 kgs direct load for 10secs. in the direction of the longitudinal axis of the terminal leads Twist test : Terminal leads shall be bent through 90 ° at a point of about 6mm from the body of the resistor and shall be rotated through 360° about the original axis of the bent terminal in alternating direction for a total of 3 rotations The area covered with a new, smooth,clean, shiny and continuous surface free from concentrated pinholes. Test temp. of solder : 245°C ± 3°C Dwell time in solder : 2 ~ 3 seconds
Terminal strength
No evidence of mechanical damage
Solderability
95 % coverage Min.
www.element14.com www.farnell.com www.newark.com Page <2> 19/09/13 V1.0
Free Datasheet http://www.datasheet-pdf.com/
Metal Film Fixed Resistor
Metal Film Fixed Resistors
Characteristics Limits Test Methods( JIS C 5201-1 ) The leads immersed into solder bath to 3.2 to 4.8 mm. from the body. Permanent resistance change shall be checked. Wave soldering condition: (2 cycles Max.) Pre-heat : 100 ~ 120°C, 30 ± 5 sec. Suggestion solder temp.: 235 ~ 255°C, 10 sec. (Max.) Peak temp.: 260°C Hand soldering condition: Hand Soldering bit temp. : 380 ± 10°C Dwell time in solder : 3 +1/-0 sec. Permanent resistance change when leads immersed to 3.2 to 4.8 mm from the body in 350°C ± 10°C solder for 3 ± 0.5 seconds
Electrical characteristics shall be Soldering temp. satisfied. Without distinct deformation reference in appearance.(95 % coverage Min.)
Resistance to soldering heat
Resistance change rate is ± (1% + 0.05Ω) Max. with no evidence of mechanical damage
Resistance change after continuous5 cycles for duty shown below: Resistance change rate is ± (1% + 0.05Ω) Max. with no evidence of mechanical damage Step 1 2 3 4 Vibration Load life in humidity Resistance change rate is ± (1% + 0.05Ω) Max. Resistance value Normal type Resistance value Normal type No deterioration of protective coatings and markings Resistance change rate is ± (1% + 0.05Ω) Max. with no evidence of mechanical damage Δ.