Standard EIA Color Code Table

Transcription

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2 Standard EIA Color Code Table BAND: ±%, ±%, AND ±% st Band nd Band rd Band th Band Color st Band (st figure) nd Band (nd figure) rd Band (multiplier) th Band (tolerance) Black Brown Red Orange Yellow Green Blue Violet Gray White Gold Silver ±% ±% ±% st Band nd Band rd Band th Band th Band Color st Band (st figure) nd Band (nd figure) rd Band (rd figure) th Band (multiplier) th Band (tolerance) Black Brown Red Orange Yellow Green Blue Violet Gray White Gold ±% ±.% ±.% ±.% XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

3 Contents Capacitors Description Temperature Range Voltage Page Electrolytic Capacitors - - Electrolytic Application Notes ESRL Low ESR, hr. radial, C - ~ +. ~ XRL Standard low, medium, and high voltage, general purpose, radial - ~ +. ~ XAL Standard low, medium, and high voltage, general purpose, axial - ~ +. ~ HTRL C low and medium voltage, general purpose, radial - ~ +. ~ HTAL C low and medium voltage, general purpose, axial - ~ +. ~ LLRL Low voltage, low leakage radial - ~ +. ~ 7 BPHR Bi-Polar high frequency for horizontal deflection circuits, radial - ~ +. ~ 9 NPRL Non-polar radial for audio circuits - ~ +. ~ NPAL Non-polar axial for audio circuits - ~ +. ~ BPRL Bi-polar radial for audio circuits - ~ +. ~ L mm height, micro miniature radial - ~ + ~ MLRL 7mm height, sub-miniature radial - ~ +. ~ 7 LS Snap in radial, C low and medium voltage - ~ + ~ 9 Film Capacitors - - Film Capacitor Application Notes MF Metallized polyester film, radial general purpose - ~ + ~ M Metallized polyester film, axial general purpose - ~ + ~ MEX Metallized polyester film, boxed radial, Class X - ~ + VAC MEB Metallized polyester film, boxed radial - ~ + ~ 7 PD Polypropylene radial capacitors - ~ + ~ MPP Metallized polypropylene radial capacitors - ~ + ~ P Polystyrene capacitors - ~ + PF Polyester film, radial general purpose - ~ + ~ PM Polyester film, sub-miniature radial general purpose - ~ + ~ PFN Polyester film, non-inductive radial general purpose - ~ + ~ Ceramic Capacitors CA Small body ceramic axial, laser etched numbers - ~ + 9 CDR I Ceramic disc class I - ~ + ~ CDR I HV Ceramic disc class I high voltage - ~ + KV ~ KV CDR II Ceramic disc class II - ~ + ~ CDR II HV Ceramic disc class II high voltage - ~ + KV ~ KV CDR III Ceramic disc class III - ~ + ~ CDR T&R Tape and Reel specifications for ceramic disc capacitors CDS Low value AC rated ceramic disc capacitors 9 EDM Epoxy dipped multilayer radial - ~ + ~ AA Ceramic trimmer - ~ + ~ Ceramic trimmer - ~ + ~ CC Ceramic chip surface mount,,,, and - ~ General Information for CD series Surface Mount Application Notes Resistors Description Power Range Page SMNR Surface mount network resistors / Watt 9 CR Surface mount chip resistors, % tolerance, and /, / Watt 7 CR Surface mount chip resistors, % tolerance,,, and /, /, / Watt 7 Z Zero ohm jumper resistors /, / Watt 7 CF General purpose carbon film resistors, % tolerance /, /, /, Watt 7 MF General purpose metal film resistors, % tolerance /, /, / Watt 7 CF/MF T&R Tape and reel specifications for CF and MF series resistors 7 CC General purpose carbon composition resistors, % tolerance /, /, Watt 79 CC T&R Tape and reel specifications for CC series resistors MO General purpose metal oxide film resistors, % tolerance,,, Watt SIP Single inline package network resistors,,, and pin / Watt per resistor PRM Cement power resistors, vertical radial mount, % tolerance, 7, Watt PRS Cement power resistors, Vertical mount, % tolerance Watt PW Cement power resistors, axial mount, % tolerance,,, Watt 7 PZ Cement power resistors, % tolerance,,, Watt 9 HS Xicon/Arcol aluminum housed power resistors ~ Watt 9 NHS Non-inductive aluminum housed power resistors for dummy load apps,, Watt 9 Varistors and Potentiometers Description Page VL Zinc oxide varistors, mm, 7mm, mm, mm and mm 9 FR Trimmer Potentiometers 99 LU Trimmer Potentiometers Fastron Inductors Description Page Inductors Fastron Inductors XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

4 Aluminum Electrolytic Capacitors Application Notes It is very important to select an aluminum electrolytic capacitor that will perform in accordance with good engineering design practices.. Polarity: Electrolytic capacitors have polarity and should be used for DC applications. If used in reversed polarity, the circuit life may be reduced. For usage on circuits whose polarity is occasionally reversed or whose polarity is unknown, use nonpolar capacitors.. Operating Voltage: Do not apply a voltage exceeding the capacitor's rating. Otherwise the capacitor may be damaged and leakage current may increase.. Ripple Current: The ripple current on the capacitor should be at or below rated level.. Operating Temperature: Although the capacitor will operate at a slightly higher or lower temperature than specified with a small derating curve, do not exceed the specified operating temperature range for an extended period of time. Usage at room temperature will ensure long life.. Leakage Current: The leakage current shall be within specified levels. When the capacitor is operated at a lower voltage, the actual leakage current will be reduced proportionately.. Surge Voltage: The surge voltage rating is the maximum DC over-voltage to which the capacitor may be subjected to, for short periods not exceeding approximately seconds at frequent intervals of not more than five minutes. Unless otherwise specified, the rated surge voltage of the electrolytic capacitors are as follows: Working Voltage (WV) Surge Voltage (SV) Soldering: (A) It is important to be careful of temperature and time when soldering. Dip or flow soldering of the capacitors should be limited to less than C and seconds. (B) High levels of humidity will affect the solderability of lead wire and terminals. High temperatures will reduce long term operating life. (C) Use of defective soldering techniques affect the inside characteristics, such as increasing leakage current, short circuit, broken or damaged lead wires, and leaking electrolyte. Wrong () Wrong () () Parts slant to the board after soldering. () Leads are greatly bent after soldering. () Lead space on board differs from the original. () Flush with the board and leads straight. Wrong () Correct () Additional Instructions:. If the capacitors are stored or left unused for a long period, they should be subjected to a low voltage and brought up to the rated working voltage for to min. before application to reduce the leakage current to the initial value.. The electrolytic capacitor is not suitable for circuits in which charge and discharge are frequently repeated, otherwise the capacitance value may drop, or the capacitor may be damaged.. Do not apply excessive force to the lead wires or terminals, or they may be broken or their connections with the internal elements may be affected.. Capacitors will be affected by some solvents. Alcohol based solvents are recommended, or water with a mild detergent. Some solvents not recommended are trichloroethylene (TCE), acetone, or any halogenous solvents. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

5 Low ESR High Reliability Electrolytic Capacitors ESRL FEATURES Very low ESR High permissible ripple current Wide operating temperature range Long life and high reliability Suited for switching power supplies Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C Hz) - C ~ + C ±% at + C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV). Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf..7 Surge Voltage Low Temperature Life Test Shelf Test Working voltage (WV) Surge voltage (SV) Working voltage (WV) Impedance ratio, Z- C/Z- C.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value 79 PART NUMBERING SYSTEM E S R L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Working Voltage (WV). ~ ~ ~ Frequency (Hz) () K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) < 7 Multiplier...7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

6 Low ESR High Reliability Electrolytic Capacitors ESRL RIPPLE CURRENT (ma C,Hz) RIPPLE CURRENT (ma C,KHz) Value (µf) Working Voltage (WV). Value (µf) Working Voltage (WV). NA NA 7. NA. NA. NA 7. NA.7 7 NA.7 NA. NA. NA MAXIMUM ESR - C,KHz) MAXIMUM ESR C,KHz) Value (µf) Working Voltage (WV). Value (µf) Working Voltage (WV).. NA.. NA 7... NA... NA.. 7. NA..7 NA..7. NA NA... NA... NA XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

7 Low ESR High Reliability Electrolytic Capacitors ESRL DIMENSIONS Vinyl sleeve ød Lead Spacing and Diameter (mm) ød. Vent.ø P ± P ød..... L +α max. min. min. ød +β max. β α for L ;. for L Value (µf) x x. x. x x x x x x Working Voltage (WV); Dimensions: ød x L (mm). x x. x. x x x x x x x.. x. x. x. x x. x x x x x x x x. x.. x. x. x. x x. x x x x x x x x x. x. x. x. x. x. x x x x x x x x x x. x. x. x. x. x x x x x x x x x. x. x. x. x. x x. x. x x x x x x. x. x.. x x x. x x x x x x x. x. x. x. x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

8 Miniature Aluminum Electrolytic Capacitors XRL FEATURES Low impedance characteristics Case sizes are smaller than conventional general-purpose capacitors, with very high performance Can size larger than 9mm diameter has safety vents on rubber end seal CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current V.WV ~ WV is - C ~ + C; WV ~ WV is - C ~ + C ±% at C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Dissipation Factor (Tan δ, at C Hz) >V I =.CWV +(µa) after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV). Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf.. Surge Voltage Low Temperature (Imp. Hz) Life Test Shelf Life Test Working voltage (WV) Surge voltage (SV) Working voltage (WV) Z- C/+ C ød< ød Z- C/+ C ød< ød.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of specified value; leakage current is within specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of specified value; leakage current is within specified value for.~v and less than % of specified value for V~V PART NUMBERING SYSTEM X R L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Capacitance (µf) < ~ > Frequency (Hz) () K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) < 7 Multiplier (.WV ~ WV).7. Multiplier (WV ~ WV).. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

9 Miniature Aluminum Electrolytic Capacitors XRL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) Vent.ø P ± ød P L ±. max. min. min. ød ± max. ød Value (µf) ød x L ma Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma x x 9. x 7 9. x. x x x x. x. x 9 x x x. x 77 x x x 79 x 7 x x x x 7 x 97 7 x. x x x 7 x 7 9 x x. x 7 x x x 7 x x x x x 7 x 7 x x x 9 x 7 7 x 9 x 7 x x 7 x 7 x x 7 x 7 x x x 9 x x x 9 x x x Value (µf) ød x L Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current: Hz, C ma ød x L ma ød x L ma ød x L ma.7 x. 7 x... x x x. x. x x x x x 7 x 7 x 99 x x x x 7 x 7 x x 79 x x 9 x 9 7 x x x x x x 9 x x 7 x 79 x 9 x 9 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

10 Miniature Aluminum Electrolytic Capacitors XRL TYPICAL PERFORMANCE CHARACTERISTICS Life Test Temperature µf V µf V Capacitance Change vs. Time (at + C) Capacitance Change vs. Temperature Capacitance Change (%) Capacitance Change (%) Time (Hours) Temperature ( C) Dissipation Factor vs. Temperature Dissipation Factor (tan δ) Hz Dissipation Factor vs. Time (at + C).... Dissipation Factor (tan δ) Hz. 7 Time (Hours) Temperature ( C) Impedance vs. Frequency Leakage Current vs. Time (at + C) Leakage Current Impedance (Ω) - C + C - C 7 Time (Hours). + C Frequency (Hz) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

11 Miniature Axial Aluminum Electrolytics XAL FEATURES Standard low, medium, and high voltage capacitors Low impedance characteristics Case sizes are smaller than conventional general purpose capacitors, with very high performance CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current V.WV ~ WV is - C ~ + C; WV ~ WV is - C ~ + C ±% at C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Dissipation Factor (Tan δ, at C Hz) >V I =.CWV +(µa) after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf.. Surge Voltage Low Temperature (Imp. Hz) Life Test Shelf Life Test Standards Working voltage (WV) Surge voltage (SV) Working voltage (WV) Z- C/+ C ød< ød Z- C/+ C ød< ød.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of specified value; leakage current is within specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of specified value; leakage current is within specified value for.~v and less than % of specified value for V~V Satisfies Characteristic W of JIS C PART NUMBERING SYSTEM X A L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Capacitance (µf) < ~ > Frequency (Hz) () K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) < 7 Multiplier.7. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

12 Miniature Axial Aluminum Electrolytics XAL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT ød ød ±β Lead Spacing and Diameter (mm) ød ød. min.. max. L ±α max. min. α β Value (µf). ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma. x. x. x.. x. x. x.. x. x x.7 x. x 9. x 9. x x x. x x x. x x. x.7 x x. x. x 9 x. x. x. x 7 x 7 x 7. x. x 9. x 9 x x 7 x. x. x. x x x x 7 x 9. x. x 9. x x 7 x 7 x 7. x. x. x 7 x x x 7 9 x x 77. x. x x 9 x 9 x 7 x 9 x 7 x x x 7 x x 7 x x x 7 7 x 79 7 x x 9 x x 7 x x 7 x 7 7 x 7 9 x 7 7 x 7 x 77 x 7 x 7 9 x x 9 x 9 x 99 x x x x x 99 x 7 x x 7 x x x 7 x 7 x 9 7 x 7 x x x x x 7 x 7 x x x 9 x 97 Value (µf) ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma. x 7. x 9. x x x.. x x x 7 x 9 x. x x x x x.7 x x x 7 x x x 7 x x 7 x 77 x 7 x x x 7 x 7 x 7 x x 7 7 x 7 x x 7 x 7 9 x x x x x x 7 x 9 x x x x 9 x x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

13 High Temperature Radial Electrolytic Capacitors HTRL FEATURES Excellent temperature performance C high operating temperature Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage.WV ~ WV Current WV ~ WV Dissipation Factor (Tan δ, at C Hz) - C ~ + C ±% at C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage For CWV,: I =.CWV +µa, for CWV >,: I =.CWV +µa after min. of applied rated DC working voltage at C. Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf.. Surge Voltage Low Temperature Life Test Shelf Life Test Working voltage (WV) Surge voltage (SV) Working voltage (WV) Impedance Z- C/Z+ C Hz Z- C/Z+ C ød < ød ød < ød.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value 79 PART NUMBERING SYSTEM H T R L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS.WV ~WV Capacitance (µf) < ~ > Frequency (Hz) K K Working Voltage (All Capacitances) () WV ~ WV. Frequency (Hz) K. K. K. RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) 7 Multiplier (.WV ~ WV).9.7. Multiplier (WV ~ WV).. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

14 High Temperature Radial Electrolytic Capacitors HTRL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) ød. Vent.ø P ± P ød..... L +α max. min. min. ød +β max. β α if L ;. if L Value (µf). ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma x x. x. x. x. x 7 x x. x x. 7 x 7 x x. x x x x 7 x 7 x 7 x 99 x x x 97 x x x 9 x 7 x 9 x x x 9 x 9 Value (µf) ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma x.. x. x.. x 7.7. x. x 7 x. x 7. x x x. x 9 x x x 7 x 7 x x x x x 7 x x x 97 x x x x 9 x 7 x 7 x x 7 x 7 7 x 9 x 9 x x 9 x 9 x 77 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

15 High Temperature Axial Electrolytic Capacitors HTAL FEATURES Excellent temperature performance C high operating temperature Suitable for industrial equipment Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at C Hz) - C ~ + C ±% at C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf. Surge Voltage Low Temperature Life Test Shelf Life Test Working voltage (WV) Surge voltage (SV) Working voltage (WV) Impedance Z- C/Z+ C Hz Z- C/Z+ C ød < ød ød < ød.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value 79 PART NUMBERING SYSTEM H T A L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Capacitance (µf) < ~ > Frequency (Hz) K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) 7 Multiplier..9.7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

16 High Temperature Axial Electrolytic Capacitors HTAL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT ød ød ±β Lead Spacing and Diameter (mm) ød ød. min.. max. L ±α max. min. α β Value (µf). ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma. x. x. x.. x. x. x.. x. x x.7 x. x 9. x 9. x x x. x x x. x x. x.7 x x. x x. x. x x. x 7. x. x 9 x x 7 x 7. x 9. x x x 7 7 x 77. x 9. x 99. x x x x. x. x. x x x x 7 x x 7. x 7. x x x x 7 x 9 x x 7 x x x 7 x 7 x 9 x x 7 9 x 7 x x x 7 x x 9 x 7 x 7 x 7 x 7 x 7 x 9 x x 7 7 x 7 x 7 9 x 9 x 7 x 79 x 7 9 x 7 x 7 77 x x 9 x 7 x 7 7 x x 9 x 7 7 x 7 x 7 x 7 x x 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

17 Low Leakage Electrolytic Capacitors LLRL FEATURES Excellent low leakage current performance High ripple current Especially useful for time constant circuits Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at C Hz) - C ~ + C ±% at C, Hz I =.CWV or.µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ... For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf Surge Voltage Low Temperature Life Test Shelf Life Test Working voltage (WV) Surge voltage (SV) Working voltage (WV) Imp. ratio Z- C/Z+ Hz Z- C/Z+ C.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value for.wv ~ WV and is ±% of initial value for WV ~ WV; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value 79 PART NUMBERING SYSTEM L L R L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Capacitance (µf) < ~ > Frequency (Hz) () K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) < 7 Multiplier.7. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

18 Low Leakage Electrolytic Capacitors LLRL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) ød. Vent.ø P ± P ød..... L +α max. min. min. ød +β max. β α if L ;. if L Value (µf). ød x L ma Working Voltage; Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma x.. x x. x. x 77. x x. x x. x x x x x. x. x x x x 9. x 9 x. 9 x x 7 x 9 x 77 7 x. x x x 7 x 7 x x. x x x 779 x 9 x 9 x x 7 x 7 x 99 x x x 9 x x x 7 x x 7 x 99 x x x x x 7 x 7 x x x 7 x 7 x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

19 Bi-Polar High Frequency Electrolytic Capacitors BPHR FEATURES Bi-polarized, made for horizontal deflection circuit correction of video monitors Long life and stable temperature characteristics Low cost compared with film capacitors High permissible ripple current at high frequency Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ) Surge Voltage Life Test Shelf Test Item Low Temperature - C ~ + C ±% at + C, Hz I =.CWV after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage. at + C, Hz Working voltage (WV) Surge Voltage (sv) Capacitance at + C shall be within ±% of the value at + C When returned to + C after, hours application of working voltage with the polarity reversed every hours at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after hours + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is within initial specified value PART NUMBERING SYSTEM B P H R V Voltage Actual Value Capacitance (µf) Actual Value DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) ød Vent.ø P ± P ød. L +α max. min. min. ød +β max. β α.... Dimensions: ød x L (mm); Ripple Current: C Working Voltage: WVDC Value ød x L Ap-p Value ød x L Ap-p Value ød x L Ap-p x.9. x. x 9. x.. x.7 x 9.. x. x. x.7 x. x. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

20 Non-Polar Electrolytic Capacitors NPRL FEATURES Non-polarized, suitable for use in circuits whose polarity is sometimes reversed or unknown The leakage current and dissipation factor have been improved Close tolerance Excellent frequency characteristics in the audio range Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C Hz) Surge Voltage Life Test Shelf Test Item Low Temperature - C ~ + C ±% at + C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV). Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf. Working voltage (WV) Surge voltage (SV). 79 Working voltage (WV). Impedance ratio Z- C/Z+ C Z- C/Z+ C When returned to + C after, hours application of working voltage with the polarity inverted every hours at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value.9 PART NUMBERING SYSTEM N P R L V Voltage Actual Value Capacitance (µf) Actual Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

21 Non-Polar Electrolytic Capacitors NPRL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) ød. Vent.ø P ± P ød..... L +α max. min. min. ød +β max. β α for L ;. for L Value (µf). ød x L ma Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma x.. x.. x.7. x 7. x x 7 x 9. x 7 x. x 9. x 7. x 7 9 x 7 x 7 7. x. x x x 7 x 9. x x 7 9 x. x x 9 x 7 x x. x x 9 x x 7 x x 9 x x x x X 9 x 9 x 7 x 9 x x x 79 x x x 77 x x 9 x 9 x 77 x x x 9 x 99 x x 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

22 Non-Polar Aluminum Electrolytic Capacitors NPAL FEATURES Non-polarized, suitable for use in circuits whose polarity is sometimes reversed or unknown The leakage current and dissipation factor have been improved Close tolerance Excellent frequency characteristics in the audio range CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C Hz) Surge Voltage Life Test Shelf Test Item Low Temperature - C ~ + C ±% at + C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV). Tan δ For capacitors whose capacitance exceeds,µf, the specification of tan δ is increased by. for every addition of,µf. Working voltage (WV) Surge voltage (SV). 79 Working voltage (WV). Impedance ratio Z- C/Z+ C Z- C/Z+ C When returned to + C after, hours application of working voltage with the polarity inverted every hours at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value.9 PART NUMBERING SYSTEM N P A L V Voltage Actual Value Capacitance (µf) Actual Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

23 Non-Polar Aluminum Electrolytic Capacitors NPAL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT ød Vent ø ød ±β max. Lead Dimensions (mm) ød ød β min. L ±α max. min. α Value (µf). ød x L ma Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current: Hz, C ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma.. x. x. x.. x 7. x. x.. x 9. x. x.7. x. x. x. x. x. x.. x. x 7. x 7.. x 9. x. x.7. x. x x. X. x. x 9 x 9 x 7. x. x 9. x 7 x 9 x 7 97 x. x 7. x x x x 9 x 9 x 7 x X 9 x X x 7 x 7 x. x x 7 x x 7 9 x x x 9 x 7 7 x 9 x x 7 x 9 x x 7 x 7 7 x 7 x 9 x 7 x x 7 X 7 x 7 x 7 7 x 7 x 9 x x 7 x 7 x x 79 x x X 7 x 7 7 x 7 7 x x 7 x X 7 x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

24 Bi-Polar Audio Crossover Electrolytic Capacitors BPRL FEATURES Radial lead, bi-polarized, suitable for crossover network in high-fidelity sound systems Has excellent high frequency characteristics Low leakage current and low dissipation factor Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C KHz) Surge Voltage Life Test Shelf Test Item Low Temperature - C ~ + C ±% at + C, KHz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Capacitance (µf) Tan δ Working voltage (WV) Surge Voltage (sv).7 ~... Capacitance at - C shall not be less than % of the value at C. Impedance ratio at Hz: Z- C/Z+ C is ; Z- C/Z+ C is. ~. When returned to + C after, hours application of working voltage with the polarity reversed every hours at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is < % of initial specified value; leakage current is initial specified value. PART NUMBERING SYSTEM B P R L V 7 Voltage Actual Value Capacitance (µf) Actual Value DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vent.ø Vinyl sleeve L +α max. ød min. min. ød +β max. P ± Lead Spacing and Diameter (mm) ød P ød β..... α for L ;. for L Dimensions: ød x L (mm); Ripple Current: KHz, C Working Voltage: WVDC Value.7. ød x L. x. x. x. x ma Value ød x L x. x x x x x ma 9 Value 7 ød x L x x x x x ma XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

25 Micro Miniature Aluminum Electrolytic Capacitors L FEATURES mm height micro miniature size conserves space Ideal for high density circuits and miniaturized boards Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C Hz) Surge Voltage Low Temperature Life Test Shelf Test - C ~ + C ±% at + C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ Working voltage (WV) Surge voltage (SV) Working voltage (WV). Imp. Hz Z- C/Z+ C Z- C/Z+ C 7 When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value for WV ~.WV and is ±% of initial value for WV ~ WV; tan δ is < % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value for WV ~.WV and is ±% of initial value for WV ~ WV; tan δ is < % of initial specified value; leakage current is < % initial specified value PART NUMBERING SYSTEM L V Voltage Actual Value Capacitance (µf) Actual Value RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Capacitance (µf) <7 7 ~ Frequency (Hz) () K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) < 7 Multiplier.7.7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

26 Micro Miniature Aluminum Electrolytic Capacitors L DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) ød. P ± P... L ± α max. min. min. ød ±β max. ød β α.... Value (µf) ød x L ma Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current: Hz, C. ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma ød x L ma. x. x. x..7 x x 7. x 7 x. x x x.7 x x 7 x x x x x 7 x 7. x x x x. x. x. x x 7 x x. x 9. x. x 7 x x 7. x. x. x x. x. x 7. x 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

27 Sub-Miniature Radial Electrolytics MLRL FEATURES Ultraminiature and low profile size Low leakage current ±% tolerance standard, ±% tolerance available Can be replacement for tantalum Satisfies characteristic W of JIS-C- standard CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at + C Hz) Surge Voltage Life Test Shelf Test Item Low Temperature - C ~ + C ±% at + C, Hz I =.CWV or µa whichever is greater after minutes of applied rated DC working voltage at C Where: C = rated capacitance in µf; WV = rated DC working voltage Working voltage (WV) Tan δ Working voltage (WV) Surge voltage (SV) Working voltage (WV). Imp. Hz Z- C/Z+ C Z- C/Z+ C When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is % of initial specified value; leakage current is initial specified value When returned to + C after, hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±% of initial value; tan δ is % of initial specified value; leakage current is % of initial specified value PART NUMBERING SYSTEM M L R L V Voltage Actual Value Capacitance (µf) Actual Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

28 Sub-Miniature Radial Electrolytics MLRL DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vinyl sleeve ød Lead Spacing and Diameter (mm) P ± ød P.... L ± max. min. min. ød ± max. ød. Value (µf). D x H Ω Working Voltage (WV); Dimensions: D x H (mm); Ripple Current: Hz, C D x H Ω D x H Ω D x H Ω D x H Ω D x H Ω D x H Ω. x 7. x 7. x 7. x 7.7 x 7 x 7 x 7. x 7. x 7. x 7 x 7.7 x 7 x 7 x 7 9. x 7 x 7 x 7 x 7 x 7 x 7 x 7 x 7 x 7 x 7 9 x 7 7 x 7 x 7 x 7 7 x 7 x 7 x 7 x 7 x 9 7 x 7 x 7 x 7 x 7 9 x 9 x 7 x 7 x 7 x 9 x 7 x 7 x 7 x 7 99 x 9 7 x 7 99 x 9 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

29 Aluminum Electrolytic Capacitors LS FEATURES Has snap-in terminals, which can be soldered to the PCB directly Suitable for electronic equipment with middle-high voltage circuits Vented cans for safety Excellent temperature performance CHARACTERISTICS Operating Temperature Range Capacitance Tolerance Leakage Current Dissipation Factor (Tan δ, at C Hz) Temperature Life Test Shelf Test Item WV ~ WV is - C ~ + C; WV ~ WV is - C ~ + C ±% at C, Hz For WV ~ WV: I =.CWV +µa or ma; for WV ~ WV: I =.CWV +µa or ma whichever is smaller after minutes of applied rated DC working voltage at C Where: C = rated capacitance inµf; WV = rated DC working voltage Working voltage (WV) Tan δ C, C>,;, C>, Imp. Z - C / Z + C Ratio Z - C / Z + C.. When returned to + C after, hours application of working voltage at + C, the capacitor will meet the following limits: Capacitance change is ±%; tan δ is <% of initial specified value; leakage current is within initial specified value When returned to + C after hours at + C with no voltage applied, the capacitor will meet the following limits: Capacitance change is ±%; tan δ is <% of initial specified value; leakage current is within initial specified value PART NUMBERING SYSTEM L S V x Voltage Capacitance (µf) Optional Case Size (mm) RIPPLE CURRENT AND FREQUENCY MULTIPLIERS Working Voltage (WV) Frequency (Hz) () K K K RIPPLE CURRENT AND TEMPERATURE MULTIPLIERS Temperature ( C) 7 Multiplier... XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

30 Aluminum Electrolytic Capacitors LS DIMENSIONS AND PERMISSIBLE RIPPLE CURRENT Vent Vinyl Sleeve Negative (black) x ø ±. ±. ±. Terminal ±. ød ± max.. ±. ±. Vinyl Plate L ±. max.. ± ±. Positive ød ± max.. ±. Value (µf) ød x L A/rms Working Voltage (WV); Dimensions: ød x L (mm); Ripple Current Hz, C ød x L A/rms ød x L A/rms ød x L A/rms ød x L A/rms ød x L A/rms ød x L A/rms ød x L A/rms ød x L A/rms x. x. x. x x x x x x.7 x 9.7 x.7 x x x x x 7 x x.9 x.9 x x.7 x. x. x x.9 x x.9 x x x x x x.7 x. x x. x. x x. x x x x. x. x. x x. x. x. x. x. x. x.7 x. x. x. x. x. x. x. x. x. x. 7 x. x. x. x.9 x. x. x.9 x. x. x.9 x.9 x. x. x. x. x. x. x. x. x. x.7 x. x. x. x.7 x. x. x. x.7 x. x. x. x.7 x. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

31 Film Capacitors Application Notes Plastic film capacitors are now widely used by the electronics industry, and their selection is based upon the following factors: Frequency: Polyester capacitors have higher dielectric losses and as a result are generally suitable at frequencies of KHz or less. They have a wider temperature range than the other common use dielectric materials and due to a higher dielectric constant can produce high capacitance values in smaller package dimensions. Polypropylene capacitors have relatively low dissipation factors and dielectric losses, and as such they are suitable for high voltages, high frequencies and high pulse currents. They are larger in size, have a narrow temperature range and negative temperature coefficient. Polypropylene capacitors are suitable for blocking, bypass, coupling, and temperature compensation circuits. They have applications in telecommunications, data processing, industrial instrumentation, and automatic control systems. Metallized polypropylene capacitors are suitable for the above applications as well as for filtering, decoupling, timing, and tuning. Polycarbonate capacitors have moderate features of both polyester & polypropylene styles, but are more expensive. They offer more stable capacitance versus temperature characteristics and good long term stability. Polystyrene capacitors have excellent high frequency performance due to their low dissipation factor and very low dielectric absorption characteristics. Metallized polyester box capacitors have a non-inductive construction. They are suitable for filtering, bypass, coupling, decoupling, and timing circuits. They have applications in telecommunications, data processing, industrial instrumentation, and automatic control systems. Peak Voltage: The peak voltage against a zero potential reference should always be less than the nominal DC voltage rating of the capacitor. The rate of voltage change (dv/dt) of individual specifications is valid for pulse voltages equal to or less than the rated DC voltage. If the pulse voltage is less, then a factor of "VDC/applied voltage" may be used. Vp V Vpp 7V Vp VDC rated and the Vrms voltage derived from the peak voltage should always be less than the nominal AC voltage rating of the capacitor. µsec. µsec. Vrms VAC rated for sinusoidal wave Vp-p Vrms = Permissible Current: Under AC operation, the permissible current must be less than Ap-p. High currents may deteriorate performance and damage the capacitor due to internal temperature rise. Inherent Temperature Rise: When a capacitor is operated in an AC circuit, especially at high frequency, the temperature of the capacitor rises. In case the temperature rises too high, the performance of the capacitor may suffer or the capacitor be damaged. The inherent temperature rise with no air circulation (Ambient temp. at C) should be kept within the specified limits. (The allowable value depends on the dielectric. For details, consult our office or sales representative.) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

32 Metallized Polyester Film Capacitors MF FEATURES Constructed of metallized polyester film High stability in a miniature size Self healing characteristics with dipped epoxy coating to retard humidity defects Non-inductive construction CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Dielectric Strength Dissipation Factor - C ~ + C ±%, ±%, ±%,,, % of working voltage for minute % max. (KHz), C PART NUMBERING SYSTEM M F V Voltage Actual Value. 7 Capacitance (µf) Actual Value K Tolerance Tolerance Code: J = ±% K = ±% M = ±% TEMPERATURE CHARACTERISTIC CHARTS D.F. vs C/C vs Temperature D.F. (%) C/C (%) Temperature ( C) Temperature ( C) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

33 Value (µf).x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x.x..xx..x.x..x.x7..x.x.x. x..x.x9..x.x..x.x9..x7.x.x.x.x.x x.x. x.x x.x. x.x L x H x T P ød.x.x..x.x..x.x..x.x..x.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x.x..x.x..xx..x.x..x. x7..x.x.xx..x.x7..x.x.x.x..x.x9..x7.x x7.x9. x.x9. x9.x xx. x.x. x.x. x.x L x H x T P ød.x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x.x..xx..x.x7..x.x..xx..xx..x.x..x.x7..x.x.x.x..x.x..x.x9..x7.x.x.x.x9.x x.x9. x9.x x.x x.x x.x x.x. x7.x L x H x T P ød.x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x9.x..x.x..x.x..xx..x.x..xx..xx..x.x..x.x..x.x7..x.x..x.x7..x.x.x.x..x.x9..x.x9. x7.x. x.x9. x.x xx x.x x.x x7x L x H x T P ød Working Voltage (WV); Dimensions (mm) L max. H max. T max. min. ød ±. P ± XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - Metallized Polyester Film Capacitors MF DIMENSIONS

34 Axial Metallized Polyester Film Capacitors M FEATURES Non-inductive Sealed with epoxy resin Self healing Excellent for use in coupling, RF filters, and solid state circuits MA ME CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Dielectric Strength Dissipation Factor Insulation Resistance - C ~ + C ±% standard, other tolerances available upon request, ask for details,,,, % of working voltage for minute % max. (KHz), C <.µf is >,MΩ;.µF is >,MΩ per µf PART NUMBERING SYSTEM M Voltage E Type # ø's st digit nd digit Capacitance (pf) Voltage Code: = = = = = (Type E only) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

35 Axial Metallized Polyester Film Capacitors M DIMENSIONS: LEAD DIAMETER AND LENGTH, TYPE A AND E Type A H max. Type E ød ±. Lead Dimensions (mm) L ød T max. ød max. S min. L max. S LENGTH, HEIGHT, AND WIDTH, TYPE A DIAMETER AND LENGTH, TYPE E Value (µf) Working Voltage (WVDC); Dimensions (mm) L x H x T Value (µf) Working Voltage (WVDC); Dimensions (mm) ød x L.7.x.x. 9.xx...x..x..x..x..x9.. 9.xx...x..x..x..x..x9.. 9.x9.x. 9.xx...x..x..x..x..x9.. 9.x.x. 9.x.x...x..x..x..x..x9...x.x..x.x. 9.x.x. 9.x.x...x..x..x..x. 9.x9...x.x..x.x. 9.xx. 9.x.x7..7.x..x..x..x..x9...x.x..x9.x. 9.x.x. 9.x.x..x..x..x..x9..x9...x.x..x9.x. 9.x.x7..x.x.9.x..x..x. 7.x9..x...x.x..x.x. 9.x.x.x.x..7.x..x. 7.x. x9..x..7.x.x. 9.xx..x.x7..x.x7...x..x. x..x9. x...x9.x. 9.x.x..x.x.x7.x...x..x..x9..x9..x..9.x9.x. 9.x.x7..x.x..x.x9...x..x. 7.x9..x..x..7.x9.x. 9.x.x7..x.x9..x9.x...x..x. x9. 9.x..x...x9.x..x.x..x7.x..x.x..x..x..x9..x..x.. 9.x.x..x.x..x7.x9..x.x...x..x..x9..x..x.. 9.xx..x.x7..x.x9..x.x...x. 7.x9. 9.x9. x..x. 9.x.x..x.x.x9.x..x.x...x. 7.x9..x9..x..x.. 9.x.x7..x.x..xx. 7.x.x..7.x. x9. 9.x. x. 7.x...x.x7..x.x..x.x. 7.x.x.. 7.x..x9..x..x. 7.x7...x.x.x7.x9..x.x. 7.x.x..9 x..x9. x..x..x7...x.x..x.x9..x.x7. 7.x.x..7.x. 9.x9..x..x. 9.x7..7.x.x..x9.x. 7.x.x. 7.x9.x9.. x9..x9..x..x..x7...x.x9..x.x 7.x.x. 7.x.x...x9..x..x..x..x7..9.x7.x..xx. 7.x7.x7. 7.x.x...x9. x..x..x..x7..7.x.x 7.xx 7.x9.x9. 7.x.x. 9.x9.. x..x..x..x7...x9.x. 7.x.x. 7.xx.x.x...x9..x..x. x7...xx. 7.x.x. 7.x.x..x7.x7...x..x..x. 9.x7...x.x. 7.x.x..x.x.. x..x. 9.x. x7.. 7.xx. 7.x. x..x.x...x..x..x..x7.. 7.x.x. 7.x.x..7.x..x. 9.x7..x7.. 7.x.x. 7.x.x...x..x..x7. 7.x7.. 7.x.x7..xx.9.x..x. x7. 9.x7.. 7.x.x..x.x..7.x..x7..x7. x7.. 7.x9.x9..x.x...x. 7.x7..x7.. 7.x.x..x.x...x..x7..x xx.x.x...x..x7.. 7.x.x..x.x...x7..x7.. 7.x.x..x.x.. 9.x7..x x7.x7.. x7..x x.x...x7..x...x7. 9.x x7..x.. 9.x7..x. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

36 Metallized Polyester Film Box Capacitors Class X MEX FEATURES For interference suppression and across-line capacitor class X- Non-inductive construction High-moisture resistance Good solderability Flame retardant plastic case with epoxy resin sealing (compliant with UL9V-) Ideal for EMI filter and switching power supplies UL and CSA listed CHARACTERISTICS Items Operating Temperature Range Capacitance Range Capacitance Tolerance Working Voltage Dissipation Factor Insulation C Lead Material Dielectric Strength - C ~ + C.µF ~.7µF ±% standard, other tolerances available upon request, ask for details VAC ~Hz.7% KHz, C.µF is >,MΩ; >.µf is >,MΩ Copper clad steel VDC for seconds PART NUMBERING SYSTEM - st digit nd digit # ø's Tolerance Code: J = ±% Voltage (V) Value (pf) Tolerance K = ±% (blank) = ±% DIMENSIONS Value (µf)... Dimensions (mm) W H T P ød W max. H max. T max min P ± ød XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

37 Metallized Polyester Film Box Capacitors MEB FEATURES Self healing, non-inductive construction High-moisture resistance Good solderability Flame retardant plastic case with epoxy resin sealing (compliant with UL9V-) CHARACTERISTICS Items Operating Temperature Range Capacitance Tolerance Working Voltage (WV) Dissipation Factor Insulation Resistance - C ~ + C ±%, ±%, ±%,,, % max. (KHz), C.µF is >,MΩ; >.µf is >MΩ per µf PART NUMBERING SYSTEM - st digit nd digit # ø's 7 Voltage Code: = = Tolerance Code: J = ±% (blank) = ±% Voltage Value (pf) Tolerance = = M = ±% DIMENSIONS W max. T max. H max. min. P ± ød Value (µf) W x H x T Working Voltage (WV); Dimensions (mm) P ød W x H x T P ød W x H x T P ød W x H x T P ød.. x 9. x.. x 9. x.. x x.. x 9. x... x 9. x.. x 9. x.. x x.. x x... x 9. x.. x 9. x.. x x.. x. x... x 9. x.. x 9. x.. x. x.. x x..7. x 9. x.. x 9. x.. x. x.. x. x... x 9. x.. x 9. x.. x x.. x. x.. x x.. x x.. x. x.. x. x.... x x.. x x.. x. x. x. x x x.. x x.. x. x... x 7. x.... x. x.. x. x.. x. x 7... x. x.7. x x.. x. x. x 7. x... x. x.. x. x.. x. x 7... x. x. x. x. x 7. x... x. x.. x. x 7... x 9. x.... x 7. x... x. x.. x 9. x... x. x..7. x. x.. x. x. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

38 Polypropylene Capacitors PD FEATURES Low dissipation factor High insulation resistance High stability of capacitance and DF versus temperature and frequency Self-healing properties Non-inductive CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Dissipation Factor Insulation Resistance - C ~ + C ±%, ±%, ±%,,.% max. (KHz), C.µF is >,MΩ; >.µf is >MΩ per µf PART NUMBERING SYSTEM - K Voltage st digit nd digit Value (pf) # ø's Tolerance Voltage Code: = = = Tolerance Code: J = ±% K = ±% M = ±% TYPICAL PERFORMANCE CHARACTERISTICS Capacitance Change (%) Temperature Characteristic - - Capacitance Change (%) Frequency Temperature ( C) Frequency (KHz) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

39 Polypropylene Capacitors PD DIMENSIONS W max. T max. H max. mm P ± ød Value (µf) W x H x T P ød Working Voltage (WV); Dimensions (mm) W x H x T P ød W x H x T P ød.. x 9. x. 7. x. x.. x. x... x 9. x. 7. x 9. x.. x 9. x... x 9. x. 7. x 9. x.. x. x... x 9. x. 7. x 9. x.. x. x..7. x 9. x. 7. x 9. x.. x. x.. x 9. x.. x. x. 9. x. x.. x 9. x.. x. x 9. x. x... x. x.. x. x. 9. x. x... x. x x. x 9. x. x x. x. 9. x. x.. x. x.7 9. x. x x. x 9.. x x. x. x. x 9. x 9. x. 9. x. x 9.. x.. x. x... x x.. x x.. x. x... x x.. x. x.. x x... x. x.. x. x..7. x. x.. x. x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

40 Metallized Polypropylene Capacitors MPP FEATURES Low dissipation factor High insulation resistance High stability of capacitance and DF versus temperature and frequency Self-healing properties Non-inductive construction Epoxy resin coating CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Dissipation Factor Insulation Resistance - C ~ + C ±%, ±%, ±%,,,.% max. (KHz), C.µF is >,MΩ; >.µf is >,MΩ per µf PART NUMBERING SYSTEM Voltage st digit nd digit 9 - Value (pf) # ø's Tolerance Voltage Code: = = = = Tolerance Code: J = ±% (blank) = ±% M = ±% TYPICAL PERFORMANCE CHARACTERISTICS: RATED VOLTAGE VS FREQUENCY V(rms) VDC/VAC V(rms) VDC/VAC K K K M(HZ) Curve:.7µF.7µF µf.7µf K K K M(HZ) Curve:.7µF.7µF µf.7µf V(rms) VDC/VAC V(rms) VDC/VAC K K K M(HZ) Curve:.7µF.7µF µf.µf K K K M(HZ) Curve:.7µF.µF.µF XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

41 Metallized Polypropylene Capacitors MPP DIMENSIONS W max. T max. H max. mm P ± ød Value (µf) W x H x T Working Voltage (WV); Dimensions (mm) P ød W x H x T P ød W x H x T P ød W x H x T P ød.. x 9. x.. x 9. x.. x. x.. x x... x 9. x.. x 9. x.. x. x.. x. x 7... x 9. x.. x. x.. x x. x. x... x 9. x.. x. x.. x. x. x. x..7. x. x.. x. x.. x. x. x. x... x. x.. x. x.. x. x. x. x 9... x x 7.. x. x 7.. x. x.. x 7. x... x. x 7.. x. x 7.. x. x 9..x.... x. x. x. x 7.. x. x 9.. x 9. x... x. x.. x. x.. x 7... x. x..7. x. x.. x. x.. x... x. x.. x. x.. x. x.. x x.. x 9. x.. x... x... x. x. 7. x x.... x 9. x.. x. x.. x 9. x 7... x. x.. x. x. 7. x x.... x. x.. x. x..7. x. x. 7. x 7. x x 7. x.. 7. x. x x. x.. CHARACTERISTICS REFERENCE Permissible Current (AP-P) Rating, V Rating, (µf) Cap Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

42 Polystyrene Capacitors FEATURES Low temperature coefficient High stability and high insulation resistance Wide frequency range Ideal for high frequency circuits, and measuring instruments Electrodes and lead are spot welded to reduce series resistance Low dissipation factor PW P PS CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Insulation C Testing Voltage Dissipation Factor Quality Value (Q) Load Life Test Lead Pull Test Lead Bend Test Capacitance Drift Lead Material Humidity Test - C ~ + C ±% standard, other tolerances available upon request, ask for details,, GΩ min. % of rated voltage for minute.% maximum when KHz, C for C>pF, minimum when C for C C, % of WV for, hrs: C change is %; DF (or Q) is.% max. (or min.); IR is GΩ min. Will withstand a pull of KG applied axially for seconds Will sustain cycles of attaching a load of KG to lead, bending 9 from the direction of lead egress, then in opposite direction and back to the starting point. ±% maximum when cycled through the operating temperature range Tinned C, 9% RH for hrs: C change is %, DF is. or Q is, IR is GΩ PART NUMBERING SYSTEM P Voltage W Type # ø's st digit nd digit Capacitance (pf) Tolerance Voltage Code: = = = Tolerance Code: (blank) = ±% K = ±% M = ±% PERFORMANCE CURVE C C (%) Capacitance Change vs Temperature - - Temperature ( C) DF (%) DF vs Temperature Temperature ( C) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

43 Polystyrene Capacitors P DIMENSIONS Type S Type W ød ød ±. min. L max. min. ød max. L max. min. ød max. Value (pf) ød x L ød Working Voltage (WV); Dimensions (mm) ød x L ød ød x L ød. x.. x.. x.. x.. x.. x.. x.. x. x.. x.. x. x.. x.. x. x. 7. x.. x. x.. x.. x.. x. 9. x.. x.. x. 7. x.. x.. x.. x. x.. x.. x.. x.. x. x.. x 7.. x. x.. x 7. 7 x 7. x.. x 7. x 7. x.. x 7. x. x. 7 x 7. x.. x. 7 x 7. x. 7 7 x. 7 x 7.. x. 7 x. x 7. 9 x 9 x. x x 7 x. x 9. x. x. 9 x 9 x 9 x. 9. x 9 x 9. x. 9. x x x.. x x XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

44 Polyester Film Capacitors PF FEATURES High moisture resistance Wide operating temperature range Leads are electrically welded to electrodes Conformally coated with flame retardant epoxy resin CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Withstanding Voltage Dissipation Factor Insulation Resistance High Temperature Stability Low Temperature Stability Humidity Life Life Test Lead Material - C ~ + C ~%, %, ±%, ±%, ±%,,, Working Voltage x. ( sec.) % max. (KHz),MΩ Capacitance change +% ~ + C; Insulation resistance:,mω min. Capacitance change % ~ - C; Insulation resistance:,mω C, 9%~9%RH x WV for ± hrs: C change is ±% max.; DF change is.% max.; IR is 9,MΩ C,. x WV for, hrs: C change is ±% max.; DF change is.% max.; IR is,mω min. Solder plated annealed copper covered steel wire PART NUMBERING SYSTEM P F A Voltage st digit nd digit TEMPERATURE CHARACTERISTIC CHART # ø's Capacitance (pf) J Tolerance Voltage (WV) Code: H = A = D = G = Tolerance Code: F = ~% G = % J = ±% K = ±% M = ±% Capacitance Change (%) Temperature ( C) Dissipation Factor (%) Temperature ( C) FREQUENCY CHARACTERISTIC CHART IMPEDANCE-FREQUENCY CHARACTERISTIC (Ω) CHART Capacitance Change (%) Frequency (KHz) Impedance (Ω)..µF.µF pf 7 Frequency (Hz) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

45 Polyester Film Capacitors PF DIMENSIONS. max. H max. W max. T max. min. ød P± Value (µf) Working Voltage (WV): and ; Dimensions (mm) W x H x T P ød Value (µf) Working Voltage (WV): ; Dimensions (mm) W x H x T P ød.. x. x... x x.... x. x... x x.... x. x...7. x x.... x. x.... x x.... x. x... 9 x x..7. x. x... x. x... x. x...7 x. x 7.9. x. x... x. x 7.7. x. x... 7 x x 9.. x. x... x x x. x... 9 x x... x. x... 9 x x..... x. x.. x. x. 7. x. x.... Value (µf) Working Voltage (WV): ; Dimensions (mm) W x H x T P ød. 7. x. x... x x... x. x... x x...7 x. x x x... x. x... 9 x x..9. x. x... x. x x. x... x. x x. x... x x. 9. x. x.. x x.. x. x.. x. x.. x. x... x 7. x x 7. x x 7. x x. x x x...9. x x x. x 9.. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

46 Sub-Miniature Polyester Film Capacitors PM FEATURES High moisture resistance Wide operating temperature range Leads are electrically welded to electrodes Conformally coated with flame retardant epoxy resin CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Withstanding Voltage Dissipation Factor Insulation Resistance High Temperature Stability Low Temperature Stability Humidity Life Life Test Lead Material - C ~ + C ±% Working Voltage x. ( sec.) % max. (KHz) >,MΩ Capacitance change +% ~ + C; Insulation resistance:,mω min. Capacitance change % ~ - C; Insulation resistance:,mω C, 9%~9%RH x WV for ± hrs: C change is ±% max.; DF change is.% max.; IR is 9,MΩ C, / x WV for, hrs: C change is ±% max.; DF change is.% max.; IR is,mω min. Solder plated annealed copper covered steel wire PART NUMBERING SYSTEM st digit nd digit # ø's P M A K Voltage (WV) Code: A = Tolerance Code: K = ±% Voltage Capacitance (pf) Tolerance TEMPERATURE CHARACTERISTIC CHART Capacitance Change (%) Temperature ( C) Dissipation Factor (%) Temperature ( C) FREQUENCY CHARACTERISTIC CHART IMPEDANCE-FREQUENCY CHARACTERISTIC (Ω) CHART Capacitance Change (%) Frequency (KHz) Impedance (Ω)..µF.µF pf 7 Frequency (Hz) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

47 Sub-Miniature Polyester Film Capacitors PM DIMENSIONS Value (µf).. Working Voltage (WV): ; Dimensions (mm) W x H x T P ød. x x.. x x.... max. H max. W max. T max..... x x.. x x.. x x.... min. ød.7. x x x x.. x x... P±.7. x x.... x x.... x x.... x x.... x x.... x x.... x. x.... x 9. x.... x 9. x...7. x 9. x.... x 9. x...9 x 9. x...7 x 9. x... x. x.... x. x.... x x..... x x. x x. x.... x. x 7... x. x x. x. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

48 Non-Inductive Polyester Film Capacitors PFN FEATURES High stability and reliability Low ESR Non-inductive construction minimizes dissipation factor Epoxy resin coating CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance Standard Working Voltage (WV) Dissipation Factor Insulation Resistance - C ~ + C ±%, ±%, ±%,, % max. (KHz), C.µF is >,MΩ; >.µf is >,MΩ per µf PART NUMBERING SYSTEM Voltage st digit nd digit # ø's Capacitance (pf) Tolerance Voltage (WV) Code: = = = Tolerance Code: J = ±% (blank) = ±% M = ±% DIMENSIONS W max. T max. H max. ød P Value (µf) Working Voltage (WV); and W x H x T P ød. x 9. x.. x 9. x.. x 9. x.. x 9. x.. x 9. x.. x 9. x.. x 9. x.. x 9. x. x 9. x. x. x... x.. x. x 7.. x. x. 9. x. x. 9. x. x. 9. x. x.. x x. 7± 7± 7± 7± 7± 7± 7± 7± 7± 7± ±. ±. ±. ±. ±. ±. ±. Dimensions (mm) W x H x T P ød. x 9. x. 7±. x 9. x. 7±. x 9. x. 7±. x 9. x. 7±. x 9. x. 7±. x 9. x. 7±. x 9. x. 7±. x. x. ±... x. ±.. x. x 7. ±. 9. x. x. ±. 9. x. x 9. ±. 9. x 7. x 9. ±. 9. x. x. ±.. x x. ±.. x. x. ±. x. x. ±. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

49 Ceramic Axial-Lead Capacitors (Small Body Style) CA CHARACTERISTICS Item Temperature >pf is ±ppm/ C; pf is +/-ppm/ C NPO X7R ZU Operating Temperature Range - C ~ + C - C ~ + C - C ~ + C Working Voltage (WVDC) Capacitance Range Dissipation Factor (Tan δ) Measuring Conditions for Capacitance and DF (other voltages available upon special order, ask for details) pf ~ pf pf ~ 7pF pf ~ 7,pF C ±% maximum over - C ~ + C C +/-% maximum over + C ~ + C Capacitance Aging.% per decade hour % per decade hour Insulation Resistance (IR) After seconds charging at WV, C: GΩ or,mω per µf, whichever is less Solderability Test Resistance to Soldering Heat Test Rapid Change of Temp. Test Life Test Vibration Test Robustness of Termination Test pf is.;.. <pf is.(/c + 7) x >pf is KHz, Vrms; pf is MHz, Vrms KHz, Vrms KHz,.Vrms ± C, immersion ± seconds,.mm ~.mm depth. At least 9% of leads should be well tinned No visible damage. NPO is ±% or ±pf; X7R is +/-%; ZU is +/-%. Immersion in solder bath at ± C for ± seconds. Recovery for ± hours. No visible damage. NPO and X7R at - C ~ + C; ZU at - C ~ + C. Recovery for ± hours. No visible damage. NPO C/C is % or ±pf; X7R C/C is +%; ZU C/C is +%. DF is. x initial requirement. IR is. x initial requirement., hours at minimum temperature with. WV applied. Recovery for ± hours No visible damage. cycles for min. each: Hz ~ KHz, apm..7mm or 9m/sec. Total duration is hours. No visible damage. Visual inspection test: VAL is N, VB is N. PART NUMBERING SYSTEM / DIMENSIONS (mm) Temp. Coeff. & Tolerance st digit nd digit # ø's Capacitance (EIA) (pf) R E E L Suffix Temp. Coeff. & Tol. Code: 7 = NPO, % 7 = X7R, % 7 = ZU, %. min... min.. ±. max. ø. max. ø max.. max. max.. ±.. ± Capacitance M E.9 -. (Standard 7) Tolerance Code Rated Voltage Code Dielectric Code Optional Octagonal Shape Trailer Option Leader Option XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

50 Class I Ceramic Disc Capacitors CDR FEATURES Linear temperature coefficient of capacitance High stability of capacitance Low loss across a wide frequency range CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (WVDC) Insulation Resistance Test Voltage Life Test Humidity Test - C ~ + C Within the tolerance at MHz, ~Vrms, C WV or WV,MΩ min. x WVDC At x C for C, capacitors shall meet the following: the capacitance change for pf will be ±% or.pf; for >pf the capacitance change will be ±%. For pf Q 7 = /C; for >pf Q At exposure in the ambient temperature of C, and at 9% RH for hours the capacitors shall meet the following after hours exposure at room temperature: the capacitance change for pf will be ±% or.pf; for >pf the capacitance change will be ±%. For pf Q 7 = /C; for >pf Q PART NUMBERING SYSTEM st digit nd digit # ø's C D R N - K S Voltage Actaul Value Temp. Coeff. Lead Space Capacitance (pf) Tolerance Style Temp. Coeff. Code Lead Space Code Tolerance Code Tolerance Code Style Code NPO N.mm ±.pf C ±% M Straight S N7 E.mm ±% J ±pf D Formed F SL S ±% K +/-% Z DIMENSIONS (mm), CAPACITANCE RANGES (pf), TYPICAL TEMPERATURE CHARACTERISTICS Straight ød max.. max.. min. Formed ød max.. max.. min. + + C/C (%) NPO, N7 + + SL (P-N) NPO ø. min. ø. min. - N7 - - LS LS - Temperature ( C) - Temperature ( C) Dimensions Working Voltage (WV); Temperature Coefficient; Capacitance Range (pf) ød (mm) LS (mm) NPO N7 SL NPO N7 SL./. ~ 7 ~ 7 ~ - 9 ~./. ~ ~ ~ ~./. ~ ~ 9 ~ 9 ~ ~../. ~ 9 ~ 7 7 ~ 9.. ~ ~ ~ 9.. ~ 7 ~ 7.. ~ XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

51 High Voltage Class I Ceramic Disc Capacitors CDR FEATURES Linear temperature coefficient of capacitance High stability of capacitance Low loss across a wide frequency range CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (WVDC) Insulation Resistance Test Voltage Life Test Humidity Test - C ~ + C Within the tolerance at MHz, ~Vrms, C KWV, KWV, or KWV,MΩ min. or MΩ x µf whichever is the smaller x WVDC At x C for C, capacitors shall meet the following: the capacitance change for pf will be ±% or pf; for >pf the capacitance change will be ±%. For pf Q = /C; for >pf Q At exposure in the ambient temperature of C, and at 9% RH for hours the capacitors shall meet the following after hours exposure at room temperature: the capacitance change for pf will be ±% or pf; for >pf the capacitance change will be ±%. For pf Q = /C; for >pf Q PART NUMBERING SYSTEM st digit nd digit # ø's C D R N 9 - K S Voltage Temp. Coeff. Lead Space Capacitance (pf) Tolerance Style Voltage K K K Code Temp. Coeff. Code Lead Space Code Tolerance Code Tolerance Code Style Code NPO SL N S.mm 9.mm 9 ±.pf ±% ±% C J K ±% ±pf +/-% M D Z Straight Formed S F DIMENSIONS (mm), CAPACITANCE RANGES (pf), TYPICAL TEMPERATURE CHARACTERISTICS Straight ød max.. max. Formed ød max.. max. C/C (%) NPO, N7 SL (P-N). min.. min ø. min. ø. min. - NPO N7 - - LS LS - Temperature ( C) - Temperature ( C) Dimensions Working Voltage (WV); Temperature Coefficient; Capacitance Range (pf) K K K ød (mm) LS (mm) NPO SL NPO SL NPO SL.. ~ ~ 7. ~ ~.. ~ ~ ~ ~ 9.. ~ 7 ~. 9 ~ ~ ~. 9 ~ 9 ~ ~ ~ 9. 7 ~ ~ ~ ~ ~ ~ 7 ~ 9 ~ XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

52 Class II Ceramic Disc Capacitors CDR FEATURES Large capacitance in small sizes Non linear temperature coefficient of capacitance. CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (WVDC) Insulation Resistance Test Voltage Life Test Humidity Test - C ~ + C Within the tolerance at MHz, ~Vrms, C WV, WV, or WV,MΩ min. or MΩµF, whichever is less. x WVDC At x C for C, capacitors shall meet the following: the capacitance change for YP will be ±%; ZU will be ±%; ZV will be ±%: the dissipation factor for YP and ZU will be x - ; ZV will be 7x -. At exposure in the ambient temperature of C, and at 9% RH for hours: the capacitance change for YP will be ±%; ZU will be ±%; ZV will be ±%: the dissipation factor for YP and ZU will be x - ; ZV will be 7x -. PART NUMBERING SYSTEM st digit nd digit # ø's C D R P - K S Voltage Actual Value Temp. Coeff. Lead Space Capacitance (pf) Tolerance Style Temp. Coeff. YP ZU ZV Code P Z Q Lead Space.mm.mm 9.mm Code 9 Tolerance ±.pf ±% ±% Code C J K Tolerance ±% ±pf +/-% Code M D Z Style Straight Formed Code S F TEMPERATURE COEFFICIENT CHARACTERISTICS Temperature Coefficient Operating Temp. Range Capacitance Change YP - C ~ + C ±% ZU + C ~ + C +%, -% ZV + C ~ + C +%, -% XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

53 Class II Ceramic Disc Capacitors CDR DIMENSIONS (mm), CAPACITANCE RANGES (pf) Straight ød max.. max. Formed ød max.. max.. min.. min. ø. min. ø. min. LS LS Dimensions ød (mm) LS (mm)./../../.../ YP ~ 7 ~ ~ 9 7 ~ ~ Working Voltage (WV); Temperature Coefficient; Capacitance Range (pf) and ZU ZV YP ~ ~ ~ ~ ~ ~, ~ 7 9 ~ ~ ~ 7 ~ 9 ZU ~ 7 ~ 9 7 ~ ~ TYPICAL TEMPERATURE CHARACTERISTICS YP ZV ZU C/C (%) C/C (%) C/C (%) Temperature ( C) - Temperature ( C) - - Temperature ( C) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

54 High Voltage Class II Ceramic Disc Capacitors CDR FEATURES Large capacitance in small sizes Non linear temperature coefficient of capacitance. CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (WVDC) Insulation Resistance Test Voltage Life Test Humidity Test - C ~ + C Within the tolerance at MHz, ~Vrms, C KWV, KWV, KWV,MΩ min. or MΩµF, whichever is less. x WVDC At x C for C, capacitors shall meet the following: the capacitance change for YP will be ±%; ZU will be ±%; ZV will be ±%: the dissipation factor for YP and ZU will be x - ; ZV will be 7x -. At exposure in the ambient temperature of C, and at 9% RH for hours: the capacitance change for YP will be ±%; ZU will be ±%; ZV will be ±%: the dissipation factor for YP and ZU will be x - ; ZV will be 7x -. PART NUMBERING SYSTEM st digit nd digit # ø's C D R P - K S Voltage Temp. Coeff. Lead Space Capacitance (pf) Tolerance Style Voltage K K K Code Temp. Coeff. Code Lead Space Code Tolerance Code Tolerance Code Style Code YP ZU ZV P Z Q.mm 9.mm 9 ±.pf ±% ±% C J K ±% ±pf +/-% M D Z Straight Formed S F TEMPERATURE COEFFICIENT CHARACTERISTICS Temperature Coefficient Operating Temp. Range Capacitance Change YP - C ~ + C ±% ZU + C ~ + C +, -% ZV + C ~ + C +, - XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

55 High Voltage Class II Ceramic Disc Capacitors CDR DIMENSIONS (mm), CAPACITANCE RANGES (pf) Straight ød max.. max. Formed ød max.. max.. min.. min. ø. min. ø. min. LS LS Dimensions ød (mm) LS (mm) YP ~ ~ ~ 7 ~ 9 Working Voltage (WV); Temperature Coefficient; Capacitance Range (pf) K K K ZU ZV ~ YP ZU ZV YP ZU ~ ~ ~ ~ 9 ~ 7 ~ 7 ~ 9 ~ 7 ~ ~ ~ 7 ~ ~ 7 ~ ~ ~ ~ 7 ~ ~ 7 ~ 9 ~ 7 ZV ~ ~ 9 7 ~ TYPICAL TEMPERATURE CHARACTERISTICS YP ZV ZU C/C (%) C/C (%) C/C (%) Temperature ( C) - Temperature ( C) - - Temperature ( C) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

56 Class III Ceramic Disc Capacitors CDR FEATURES Stable capacitance change over the specified temperature Low loss at wide range of frequency Cost saving by replacing film capacitors Ultra large capacitance in small sizes CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (WVDC) Insulation Resistance Test Voltage Life Test Humidity Test - C ~ + C Within the tolerance at KHz,.Vrms, C WV, WV, WV, WV, or WV WV/WV: MΩ or MΩ x µ whichever is less; WV/WV:,MΩ or MΩ x µf, whichever is less. x WVDC At x C for C, capacitors shall meet the following: the capacitance change for YP will be ±%; YU will be ±%; YV will be ±%: the dissipation factor for YP and YU will be %; YV will be %. At exposure in the ambient temperature of C, and at 9% RH for hours: the capacitance change for YP will be ±%; YU will be ±%; YV will be ±%: the dissipation factor for YP and YU will be %; YV will be %. PART NUMBERING SYSTEM st digit nd digit # ø's C D R U - K S Voltage Actual Value Temp. Coeff. Lead Space Capacitance (pf) Tolerance Style Temp. Coeff. YP YU YV Code P U V Lead Space.mm.mm Code Tolerance ±.pf ±% ±% Code C J K Tolerance ±% ±pf +/-% Code M D Z Style Straight Formed Code S F TEMPERATURE COEFFICIENT CHARACTERISTICS Temperature Coefficient Operating Temp. Range Capacitance Change YP - C ~ + C ±% YU - C ~ + C +, -% YV - C ~ + C +, - XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

57 Class III Ceramic Disc Capacitors CDR DIMENSIONS (mm), CAPACITANCE RANGES (pf) Straight ød max.. max. Formed ød max.. max.. min.. min. ø. min. ø. min. LS LS Dimensions ød (mm) LS (mm) YP Working Voltage (WV); Temperature Coefficient; Capacitance Range (pf) V V V YU YV YP YU YV YP YU. ~.. ~ ~.. ~ ~ ~ YV.7. TYPICAL TEMPERATURE CHARACTERISTICS YP YV YU Temperature ( C) Temperature ( C) Temperature ( C) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

58 Tape and Reel Specifications CDR DIMENSIONS (mm) Straight Formed. ±..7 ±. ±..7 ±. ±.7. ±.7. ±. min. 9. ±. +/-. min. 9. ±. +/-.7 ±..7 ±. TAPE AND REEL SPECIFICATIONS AND DIMENSIONS (mm) Tape & reel available, add /REEL to the end of the CDR series part number Capacitor quantity per Tape and Reel:, for Diameter > mm, for Diameter mm ± ø ± ø max. AMMO PACK SPECIFICATIONS AND DIMENSIONS (mm) Ammo Pack available, add /AP to the end of the CDR series part number max. max. Capacitor quantity per Ammo Pack:, for Diameter > mm, for Diameter mm max. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

59 AC Rated Ceramic Disc Capacitors CDS FEATURES Ideal for across the line applications Compact size Cost effective product Safety standards recognized for AC applications CHARACTERISTICS Item Operating Temperature Range Capacitance Tolerance (min.) Working Voltage (VAC) Insulation Resistance Dielectric Strength Temperature Coefficient Dissipation factor - C ~ + C ±%, ±, +/-% VDC for C VAC for seconds YP: ±%; YV: +~-% YP:.% max. at C and KHz, ±.Vrms; YV:.% max. at C and KHz, ±.Vrms PART NUMBERING SYSTEM C D S P 7 - K Temp. Coeff. Lead Space Value (pf) Tolerance Temp. Coeff.; Code YP YV P V Lead Space.; Code ± 9. ± 7 9 Tolerance; Code ±% ±% +/-% K M Z DIMENSIONS (mm), CAPACITANCE RANGES (pf) ød max.. min. T max. ø. ±.. min. LS Value (pf) 7 ød YP Dimensions (mm) LS ± ± ± ± ± ± ± ± T Value (pf) 9 7 ød YV Dimensions (mm) LS ± ± ± 9. ± 9. ± 9. ± 9. ± 9. ± 9. ± T XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

60 Epoxy-Dipped Monolithic Ceramic Capacitors EDM FEATURES Epoxy-dipped multilayer ceramic capacitors are built with superior moisture and shock resistant epoxy coating Can be supplied in bulk or tape and reel package for automatic insertion in printed circuit boards Have wide application in computer, data processing, telecommunications, industrial control, and instrumentation equipment, etc... CHARACTERISTICS Item Temperature Temperature Operating Temperature Working Voltage (WV) Dissipation Factor C Insulation C With WV applied for seconds Dielectric Withstanding Voltage, C Life Test Aging Rate (per decade hour) Available Tolerance NPO ±ppm/ C - C ~ + C and X7R C: ±% max. over temp. range - C ~ + C and ZU C: +/-% max. over temp. range - C ~ + C and.% MHz for,pf; KHz for >,pf,mω or,mω per µf; whichever is less.% KHz,MΩ or,mω per µf; whichever is less.% KHz,MΩ or MΩ per µf; whichever is less <µf is %; µf is % of WV for seconds with charge and discharge current limited to ma C, % of WV for, hrs. None ±.pf, ±pf, ±%, ±%, C, % of WV for, hrs. Typical.% ±%, ±%, C, % of WV for hrs. Typical % ±%, +/-%, +/-%, GMV Tolerance: for capacitance values below pf, use ±.pf or ±pf. GMV = guaranteed minimum value PART NUMBERING SYSTEM E D M B st digit nd digit # ø's K Temp. Coeff. Code: N = NPO B = X7R Tolerance Code: C = ±.pf M = ±% D = ±pf Z = +/-% Voltage Actual Temp. Coeff. Value (pf) Tolerance Z = ZU J = ±% K = ±% P = +/-% V = GMV MARKING SYSTEM Capacitance is marked in digits for capacitance >pf and marked in actual value for capacitance pf APPLICATION NOTES NPO: have a very low dissipation factor and are very stable over wide variation in temperature, frequency, voltage, and time. they are frequently used for precision timing, filtering, frequency setting, and tuning circuits. X7R: are used where some capacitance variation is permissible and dissipation factor is not critical. They are frequently used for bypass, decoupling, filtering, frequency discrimination, timing, DC blocking, voltage transient suppression, instrumentation, computers, telecommunications, and automotive electronics ZU: dielectrics have the highest capacitance for their size. They have applications in bypass, decoupling, filtering, transient suppression, computers, and telecommunications. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

61 Epoxy-Dipped Monolithic Ceramic Capacitors EDM DIMENSIONS AND CAPACITANCE RANGE W T W T W T H H F H F P P P L L L LS. ±. LS. ±. LS. ±. XC, XC XC, XC XC Case Size XC XC XC XC XC H max F max Dimensions (mm) P max. W max. T max. LS ± NPO pf ~ pf pf ~ 7,pF pf ~,pf Capacitance Range X7R 7pF ~,pf.µf ~.µf.µf ~.µf ZU,7pF ~,pf.7µf ~.µf.7µf ~.µf TAPE AND REEL DIMENSIONS, PACKING QUANTITY XC, XC XC, XC XC. ±..7 ±. ±..7 ±. ±..7 ±. ±. ±. ±. min.. +/-. min.. +/-. min.. +/-.7 ±.7 ±.7 ±. Tape & reel available, add /REEL to the end of the EDM series part number Ammo Pack available, add /AP to the end of the EDM series part number max. max. max. ± ø ± Capacitor quantity per Tape and Reel:, ø max. Capacitor quantity per Ammo Pack:, for XC, XC, XC, XC, for XC XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

62 mm Ceramic Trimmer Capacitors AA FEATURES mm size Designed for easy handling Stable mechanical structure Ceramic body CHARACTERISTICS Item Operating Temperature Range Standard Working Voltage (WVDC) Breakdown Voltage (VDC) Insulation Resistance Rotation Torque - C ~ + C WVDC ~gr-cm PART NUMBERING SYSTEM A A Style Range SPECIFICATIONS Style Code: = Horizontal = Vertical 7 = Surface Mount Range Code: =. ~. =. ~. =. ~. =. ~. = 9. ~. Capacitance Range (pf). ~.. ~.. ~.. ~. 9. ~. Temperature Coefficient (ppm/ C) NPO ± N ± N7 ± N ± N ± Q Factor Color Code Red None Blue Yellow Green DIMENSIONS (mm). ±.. Color Code.... Color Code.. Color Code. Color Code Horizontal Vertical Surface Mount XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

63 Miniature Ceramic Trimmer Capacitors FEATURES Excellent microwave characteristics Aluminum ceramic stator is used in this series Heat, humidity, and cold have little effect on durability and performance Reliable characteristics shown by the high Q-factor Applicable to various frequencies, from low to ultra-high Color coded CHARACTERISTICS Item mm Style mm Style 7mm Style Operating Temperature Range - C ~ + C - C ~ + C - C ~ + C Standard Working Voltage (WVDC) Withstanding Voltage (VDC) Insulation Resistance > MΩ > MΩ > MΩ Rotation Torque ~gr-cm ~gr-cm ~gr-cm PART NUMBERS AND SPECIFICATIONS Diameter Part Number Capacity Range (pf) Temp. Coeff. (ppm/ C) Q Color Code mm -. ~. N± > Black -. ~. N± > Red -. ~. N± > None -. ~. N± > Blue -. ~. N± > Yellow mm -. ~. N7± > White -. ~. N7± > Red -. ~. N7± > Green ~. N± > Brown 7mm --. ~ N± > Yellow --. ~ N± > Brown --. ~ N± > Green --7. ~ 7 N± > None 7mm --. ~. NPO± > None --. ~. N± > Blue --. ~. N± > Brown --. ~. N± > Green --7. ~ 7. N± > Gray --. ~. N± > / MHz Black XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

64 Miniature Ceramic Trimmer Capacitors DIMENSIONS (mm) mm Style. ±... ±. ±. ø. ±.. ±.. ±...7 ±.. ±..7 ø. ( Pins) ±. Color Code. ± mm..... ±., Dip ø. 7mm Style Color Code 7.. ±.. ±.. ±....7 ±. 7mm Style Color Code Pins. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

65 Ceramic Chip Capacitors CC FEATURES High reliability Small size with high dielectric constant Low inductance Popular temperature coefficients available Wide operating temperature range High insulation resistance Case sizes:,,, CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient NPO / COG X7R ZU - C ~ + C ±ppm/ C for C>pF +ppm, -ppm/ C for C pf - C ~ + C C ±% maximum over - C + C - C ~ + C C ±%-% maximum over + C + C Measuring Conditions for Capacitance and D.F. MHz, Vrms for C,pF KHz, Vrms for C>,pF KHz, Vrms KHz,.Vrms Dissipation Factor and Tangent of Loss Angle (Tan δ). for C pf.(/c + 7) x - for C<pF.. Insulation Resis. After sec. Charging at Rated Voltage C GΩ or,mω(c) whichever is less GΩ or,mω(c) whichever is less GΩ or,mω(c) whichever is less Voltage Test C. x rated voltage. x rated voltage. x rated voltage Capacitance Aging =.% per decade hour =% per decade hour PART NUMBERING SYSTEM C C N J / R E E L Voltage Case Size Temperature Coefficient Value Tolerance Suffix CODES FOR CASE SIZE, TEMPERATURE COEFFICIENT, AND TOLERANCE Case Size Code Temperature Coefficient Code Tolerance ±.pf Code C Tolerance ±% Code M Suffix Tape and Reel Code /REEL NPO / COG N ±pf D +% -% Z Bulk -BK X7R B ±% J +% -% P ZU Z ±% K GMV V YV V For capacitance values below pf, use C or D. GMV = Guaranteed Minimum Value CAPACITANCE RANGES Case Size NPO / COG X7R ZU (,, ) / YV () V V V V V V pf~7pf pf~pf pf~9pf 7pF~pF pf~pf pf~7pf pf~pf pf~.µf pf~.µf pf~.µf.µf~.µf pf~.µf pf~.7µf.7µf~.µf.µf~.µf 7pF~.µF pf~.7µf.µf~µf TOLERANCE AVAILABLE Availability NPO / COG X7R ZU Tolerance Capacitance ±.pf <pf ±pf pf ±% >pf ±% pf ±% All Values ±% All Values ±% All Values ±% All Values +% -% All Values +% -% All Values XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

66 Ceramic Chip Capacitors CC DIMENSIONS Configuration: Terminations (nickel barrier) Reel Dimensions (mm): Reel Quantity:, per Reel L W ø ± E E T Termination Termination Electrodes Electrodes Silver metalization Nickel barrier layer Solder plated layer ± min. 7 ±. Case Size Dimensions (mm) L (length) W (width) T (thickness) max. E (termination). ±.. ±.. ±.. ±. ±.. ±.. ±.. ±.... ±. ±. ±. ±. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

67 General Information CC TYPICAL PERFORMANCE CURVES C (%) D.F. (%) C (%) C (%) C (%) C (%) COG (IB/CG) COG COG Temperature ( C) Temperature ( C) - D.C Voltage (V) A.C. Voltage (Vrms) Frequency (MHZ) - -,, Time (hours) C (%) C (%) D.F. (%) C (%) X7 (R), ZU (E) - ZU (E) X7R (R) Temperature( C) X7R (R) ZU (E) Temperature( C) X7R (R) ZU (E) DC Voltage (V) ZU (E) AC Voltage (Vrms) C (%) - - X7R (R) X7R (R) ZU (E) Frequency (MHZ) C (%) - - X7R (R) ZU (E) -,, Time (hours) XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

68 Surface Mount Resistors and Capacitors Application Notes Storage: To maintain the solderability of terminations, the following storage conditions are recommended: ambient temperature less than C, relative humidity less than 7% RH, no harmful gases containing sulfur or chlorine. Handling: Surface mount components should be handled with care to avoid contamination or damage. The use of vacuum pickup or plastic tweezers is recommended for manual placement. Tape and reeled packages are suitable for automatic pick and placement machines. Preheat: In order to minimize the risk of thermal shock during soldering, a carefully controlled preheat is required. The rate of preheat should not exceed C per second and the final preheat temperature should be within C of the soldering temperature for small chips such as,,, and. Soldering: Use mildly activated resin RA and RMA fluxes, do not use activated flux. The amount of solder in each solder joint should be controlled to prevent the damage of chips caused by the stress between solder, chips, and substrate. Hand soldering with temperature-controlled iron not exceeding watts and diameter of tip less than mm is recommended, tip of iron should not contact the body directly, and the temperature of iron should be set not more than C. Recommended Soldering Profiles are as Follows: ( C) Preheat T Soldering Cooling Soldering Reflow Wave Soldering Temp. (T) C~ C C~ C Soldering Time (t) < seconds < seconds Chip Size,,, T C Sec. t Sec. Cooling: After soldering, cool the chips and substrate gradually to room temperature. Cooling in air is recommended to minimize stress in the solder joint. A cooling rate not to exceed C per second should be used when forced cooling is necessary. Cleaning: All flux residue must be removed to eliminate contamination that could cause electrolytic surface corrosion. Freon, trichloroethylene or other suitable electronic-grade vapor-cleaning solvents are suitable for cleaning. Good results can be obtained by using ultrasonic cleaning at the boiling point of the solvent. The choice of the proper system is dependent upon many factors such as component mix, flux, solder paste and assembly method. The ability of the cleaning system to remove flux residues and contamination from under the chips is very important. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

69 Surface Mount Network Resistors SMNR FEATURES Miniature, high density packaging Combinations of different ohmic value are available High reliability with RuO paste Glass Passivation: Glass Protective Coating Resistor: Ruthenium Oxide 9/ Tin-Lead Solder Coating Nickel Barrier CHARACTERISTICS Electrode: Solder Plating on Thick Conductor Substrate Alumina Silver Palladium Items Operating Temperature Range Temperature Coefficient Range Standard Resistance Range Power Rating, C Max. Working Voltage Resistance Tolerance Moisture Resistance High Temperature Operation Short Time Overload Temperature Cycling Resistance to Solder Heat Reel Quantity - C ~ + C ±ppm/ C Ω - MΩ. per resistor VDC ±%, + C, 9% RH (.% +.Ω R), +7 C (.% +.Ω R). x WV for seconds (% +.Ω R) - C ~ + C for cycles (% +.Ω R) C for seconds (% +.Ω R), per reel PART NUMBERING SYSTEM S M N R - K Value / R E E L Suffix Suffix Code: -BK /REEL Package: Bulk Tape and Reel DERATING CURVE CIRCUIT CONSTRUCTION Rated Power (%) Ambient Temperature ( C) R R R R R = R = R = R DIMENSIONS (mm). ±.. ±.. ±.. ±.. ±.. ±. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

70 % Thick Film Chip Resistors CR FEATURES High purity alumina substrate Wave or flow solderable Excellent high frequency characteristics Wrap around termination Inner electrode protection CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Temperature Cycling Short Time Overload Humidity Load Life Load Life Vibration Solderability Resistance to Soldering Heat Termination Adhesion Range of Values Reel Quantity - C ~ + C ±ppm/ room temperature + C ±(% +.Ω) - C ~ + C ±(.% +.Ω) max. with rated voltage x. for seconds ±(.% +.Ω) C RH 9~9% ±(.% +.Ω) 7 C ±(% +.Ω) low frequency, directions for hours in each direction 9% min. C for seconds ±(.% +.Ω) C for seconds ±(% +.Ω) g Ω ~ MΩ, per reel DERATING CURVE STRUCTURE REEL DIMENSIONS (mm) Rated Load (%) Ambient Temperature ( C) Primary Encapsulant Resistor Secondary Encapsulant Alumina Primary Electrode Secondary Electrode Ni-Plating Sn-Plating ø ± ± min. 7 ±. PART NUMBERING SYSTEM 9 K Ohms / R E E L Suffix Suffix Code: -BK /REEL Package: Bulk Tape and Reel SERIES, SIZE, WATTAGE, VOLTAGE, AND DIMENSIONS L C W t D * Max. Power 7 C, see Derating Curve. 9 9 Case Size Power Rating / / / / Max. Power Rating * / / / / Voltage (max.) W.V. O.V. L. ±.. ±. ±. ±. Dimensions (mm) W C D. ±.. ±.. ±.. ±.. ±.. ±. ±.. ±.. ±. ±.. ±.. ±. t ~ ~. ~. ~. 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

71 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7 % Thick Film Chip Resistors CR K K K 7K.K.K.K.K.K.K.7K.K.K.7K.K.K.7K.K.K.K.K.K.9K.7K.7K.K.7K.9K.9K.K.K.K.K.K.K.K.7K.K.9K.K.K.7K.7K.K.7K.9K.K.K.9K.K.K.K.K.K.7K.K.7K.K.9K.K.K.K.K.K.K.K.7K.7K.99K.K.K.K.9K.K.7K.9K.K.9K.K.9K.K.K.9K 7.K 7.K K 7.K 7.7K.K.K.K.K.7K 9.9K 9.K 9.K 9.7K K.K.K.7K.K.K.K.K.K.K.7K K.K.7K.K.K.7K K.K.K.K.K.9K 7.K 7.K.K.7K 9.K 9.K K K.K.K.K.K.K.7K.K.9K.K.K.7K 7.K K.7K 9.K K.K.9K.K.K.K.K.K.7K.K 7.K.K 9.K.K.K.K.K.K.K.K K.7K 9.9K.K.K.K.9K.K 7.K 9.K.K.9K.K.9K.K.K 9.K 7.K 7.K 7K 7.K 7.7K K.K.K.K.7K 9.9K 9.K 9.K 97.K K K K 7K K K K K K K 7K K K 7K K K 7K K K K K K 9K 7K 7K K 7K 9K 9K K K K K K K K 7K K 9K K K 7K 7K K 7K 9K K K 9K K K K K K 7K K 7K K 9K K K K K K K K 7K 7K 99K K K K 9K K 7K 9K K 9K K 9K K K 9K 7K 7K 7K 7K 77K K K K K 7K 99K 9K 9K 97K STANDARD STOCKED VALUES (Ω) M

72 % Thick Film Chip Resistors CR FEATURES High purity alumina substrate Wave or flow solderable Excellent high frequency characteristics Wrap around termination Inner electrode protection Resistance range Ω ~ MΩ CHARACTERISTICS Item Oper. Temp. Range - C ~ + C Temp. Coefficient <Ω is -~+ppm/ C; ~MΩ is ±ppm/ C; >MΩ is -~+ppm/ room temp. + C Temperature Cycling ±(% +.Ω) - C ~ + C Short Time Overload ±(.% +.Ω) max. w/rated voltage x. for sec. Himidity Load Life ±(.% +.Ω) C RH 9~9% Load Life ±(.% +.Ω) 7 C Item Vibration Solderability Soldering Heat Resistance Termination Adhesion Zero Ohm Jumper Reel Quantity ±(% +.Ω) low frequency, directions for hours in each direction 9% min. C for seconds ±(.% +.Ω) C for seconds ±(% +.Ω) g Upper limit.ω; Add current rating, per reel PART NUMBERING SYSTEM - K Ohms / R E E L Suffix Suffix Code: -BK /REEL Package: Bulk Tape and Reel SERIES, SIZE, WATTAGE, VOLTAGE, AND DIMENSIONS Case Size Power Rating / / / / Power * Rating / / / / Voltage (max.) W.V. O.V. L. ±.. ±. ±. ±. W. ±.. ±. ±. ±. Dimensions (mm) C. ±.. ±.. ±.. ±. D. ±.. ±.. ±.. ±. t ~. ~. ~. ~. W L C D t * Max. Power 7 C, see Derating Curve. DERATING CURVE STRUCTURE REEL DIMENSIONS (mm) Rated Load (%) Ambient Temperature ( C) Primary Encapsulant Resistor Secondary Encapsulant Alumina Primary Electrode Secondary Electrode Ni-Plating Sn-Plating ø ± ± min. 7 ±. STANDARD STOCKED VALUES (Ω) K.K.K.K.K.K.K K.K.K.7K K.K.K.9K.K.7K.K.K.K.K K.K 9.K K K K K K K K K K K 7K K K K 9K K 7K K K K K 7K K 9K K K K K K K K K K K 7K K K K 9K K 7K K K K K K 7K K 9K M.M.M.M.M.M.M M.M.M.7M M.M.M.9M.M.7M.M.M.M.M M.M 9.M M 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

73 Zero Ohm Resistors Z FEATURES Resistance: less than.ω Color coding: one black band Compatible with automatic insertion equipment Ideal short circuit between points on P.C. boards Lead material: tin plated copper Body material: electrical grade high performance molding compound CHARACTERISTICS Items Maximum Resistance Insulation Resistance Dielectric Withstanding Voltage Insulation Flammability Current Rating.Ω Dry is,mω; Wet is MΩ Atmosphere is VRMS; High Altitude is VRMS Resistor insulation is self extinguishing within seconds after externally applied flame is removed A at + C derating to A at + C PART NUMBERING SYSTEM 9 R E E L Ohms Suffix Code SERIES, WATTAGE, SIZE, DIMENSIONS, AND AVAILABLE PACKAGING d Suffix Code: Package: Bulk H ± L H ± D REEL AP Tape and Reel Ammo Pack Watts Size Dimensions (mm) Standard Quantities Available L max. L min. D max. D min. H d Bulk Tape and Reel Ammo Pack 99 /W Standard....7,,, 9 /W Standard....,,, XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

74 Carbon Film Fixed Resistors CF FEATURES ±% tolerance High quality performance at economical prices Compatible with automatic insertion equipment Flame retardant type available Weldable type with copper plated lead wire available Values below Ω or above MΩ are available by special request, please ask for details CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Dielectric Withstanding Voltage Temperature Cycling Short-Time Overload (permanent resistance change) - C ~ + C Ω ~ 9KΩ is ~ -ppm/ C; KΩ ~ MΩ is ~ -7ppm/ C;.MΩ ~ MΩ is - ~ -7ppm/ C Test methods: natural resistance change per temp. C; [R-R/R(t-t)]x (ppm/ C); R is resis. value at room temp. (t); R is resis. value at room temp.+ C (t); Test pattern is room temp., room temp.+ C. No evidence of flashover mechanical damage, arcing or insulation breakdown. Test method is resistors are clamped in the trough of a 9 metallic V-block and tested at the maximum overload voltage for +/- seconds. ±% +.Ω max. with no evidence of mechanical damage. Test method is five cycles for duty cycle as follows: step at - C ± C for min.; step at room temp. for ~ min.; step at + C ± C for min.; step at room temp. for ~ min. ±% +.Ω max. with no evidence of mechanical damage. Test method is the application of a potential of. times RCWV for seconds. Load Life in Humidity For normal type: <KΩ is ±%, KΩ is ±%. For flame retardant type: <KΩ is ±%, KΩ is ±%. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" in a humidity test chamber controlled at C ± C and 9~9% relative humidity. Load Life (permanent resistance change) Insulation Resistance Resistance to Soldering Heat (permanent resistance change) For normal type: <KΩ is ±%, KΩ is ±%. For flame retardant type: <KΩ is ±%, KΩ is ±%. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" at +7 C ± C ambient.,mω min. Test method is resistors are clamped in the trough of a 9 metallic V-block and tested at the maximum overload voltage for +/- seconds. ±% +.Ω max. with no evidence of mechanical damage. Test method is leads are immersed.~.mm from the body in C ± C solder for ± seconds DERATING CURVE CURRENT NOISE TEMPERATURE COEFFICIENT Percent Rated Load (%) 7 Ambient Temperature ( C) db ppm/ C µv/v..... K K K M Normal Resistance (Ω) K K K M Normal Resistance (Ω) PART NUMBERING SYSTEM 9 K R E E L Ohms Suffix Code 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

75 Carbon Film Fixed Resistors CF SERIES, WATTAGE, SIZE, VOLTAGE, DIMENSIONS, AND AVAILABLE PACKAGING d Suffix Code: Package: Bulk H ± L H ± D REEL AP Tape and Reel Ammo Pack Watts Size Voltage (max.) Dimensions (mm) Standard Quantities Available W.V. O.V. L max. L min. D max. D min. H d Bulk Tape and Reel Ammo Pack 9S /W Small....7,,, 9S /W Small ,,, 9S W Small,....7,,, 97S W Small,....7,,, 99 /W Standard....7,,, 9 /W Standard....,,, 9 /W Standard 7...,,, 9 W Standard,...,,, 97 W Standard,..., STANDARD VALUES (Ω) K.9K.K K 9K K K 9K K.M.9M.M K.K.K 9.K K K 9K K K 9K M.M 9.M....K.K.7K K K 7K K K 7K M.M.7M M K.7K.K K K K K K K.M.M.M M....K K.K K 7K K K 7K K.M.7M.M M....K.K.K K K K K K K.M M.M K.K.K K K K K K K.M.M.M K.K K K K 7K K K 7K.M.M M XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

76 Metal Film Fixed Resistors MF FEATURES ±% tolerance Epoxy coated miniature resistors Nickel chromium ceramic substrate Alloy coated leads Welded end caps EIA standard color coding CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Dielectric Withstanding Voltage Temperature Cycling Short-Time Overload (permanent resistance change) Pulse Overload Humidity (steady rate) (temporary resistance change) Load Life in Humidity Load Life (permanent resistance change) - C ~ + C ±ppm/ C standard (±ppm/ C, ±ppm/ C, ±ppm/ C, and ±ppm/ C available upon special request). Test methods: natural resistance change per temp. C; [R-R/R(t-t)]x (ppm/ C); R is resis. value at room temp. (t); R is resis. value at room temp.+ C (t); Test pattern is room temp., room temp.+ C. No evidence of flashover mechanical damage, arching or insulation breakdown. Test method is resistors are clamped in the trough of a 9 metallic V-block and tested at the maximum overload voltage for +/- seconds. ±% +.Ω max. with no evidence of mechanical damage. Test method is five cycles for duty cycle as follows: step at - C ± C for min.; step at room temp. for ~ min.; step at + C ± C for min.; step at room temp. for ~ min. ±% +.Ω max. with no evidence of mechanical damage. Test method is the application of a potential of. times RCWV for seconds. ±% +.Ω max. with no evidence of mechanical damage. Test method is, cycles operating at times RCWV with duty cycle of second "on", seconds "off". ±% +.Ω max. with no evidence of mechanical damage. Test method is hours exposure in a humidity test chamber controlled at C ± C and 9~9% relative humidity. ±% +.Ω max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" in a humidity test chamber controlled at C ± C and 9~9% relative humidity. ±% +.Ω max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" at +7 C ± C ambient. Terminal Strength No evidence of mechanical damage. Test methods as follows: Direct Load; resistance to a.kg direct load for seconds in direction of longitudinal axis of the terminal leads. Twist Test; terminal leads are bent through 9 at a point of about mm from the body of the resistor and are rotated through about the original axis of the bent terminal in alternating direction for a total of rotations. Solderability 9% coverage min. Test method is that the area is covered with a new, smooth, clean, shiny and continuous surface free from concentrated pinholes. Test temperature of solder is + C ± C. Time in solder is +./- seconds. Resistance to Solvent No deterioration of protective coating and markings. Test method is that the resistors are immersed in a bath of trichoethane completely for minutes with ultrasonic. R/R (%) LOAD LIFE Ω KΩ KΩ KΩ MΩ Nominal Resistance (Ω) Percent Rated Load DERATING CURVE db Ambient Temperature ( C) PART NUMBERING SYSTEM Suffix Code: Package: 7 R E E L REEL Bulk Tape and Reel Ohms Suffix Code AP Ammo Pack 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

77 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 77 Metal Film Fixed Resistors MF K K K 7K.K.K.K.K.K.K.K.7K.K.K.7K.K.K.7K.K.K.K.K.K.K.9K.7K.7K.K.K.7K.9K.9K K.K.K.K.K.K.K.K.7K.K.K.9K.K.K.7K.7K.7K.K.7K.9K.K.K.9K.K.K.K.K.K.K.7K.K.K.7K.K.9K.9K.K.K.K.K.K.K.K.7K.7K.7K.99K.K.K.K.K.9K.K.K.7K.9K.K.9K.K.K.9K.K.K.K.9K 7.K 7.K K 7.K 7.7K.K.K.K.K.K.K.7K 9.9K 9.K 9.K 9.K 9.7K K.K.K.7K K.K.K.K K.K.K.7K K.K.7K K.K.7K K.K.K K.K.K.9K 7.K 7.K K.K.7K 9.K 9.K K K K.K K.K.K.K.7K K.K.9K.K.K.7K 7K 7.K K.7K 9.K K.K.9K.K.K K.K.K K.K.7K K.K 7.K.K 9K 9.K.K.K.K K.K.K.K.K 7K K.7K 9.9K K.K.K.K.9K K.K 7.K 9K.K.9K K.K.9K.K K.K 9.K 7.K 7.K 7K 7.K 7.7K K K.K.K.K.7K 9.9K 9K 9.K 9.K 97.K K K K 7K K K K K K K K 7K K K 7K K K 7K K K K K K K 9K 7K 7K K K 7K 9K 9K 9K K K K K K K K K 7K K K 9K K K 7K 7K 7K K 7K 9K K K 9K K K K K K K 7K K K 7K K 9K 9K K K K K K K K K 7K 7K 7K 99K K K K 9K K K 7K 9K K 9K K K 9K K K K 9K 7K 7K 7K 7K 77K K K K K K 7K 99K 9K 9K 9K 97K M.M.M / / / ~M ~M ~M.~M.~M Watts Standard Range of Values (Ω) W.V. Voltage (max.) Dimensions (mm) Standard Quantities Available 7,,,,,,,,,,, - - N/A - -,,, - - N/A N/A O.V. L max. D max. d H Bulk Tape and Reel Ammo Pack H ± H ± L d D STANDARD VALUES (Ω) SERIES, WATTAGE, SIZE, VOLTAGE, DIMENSIONS, AND AVAILABLE PACKAGING

78 Tape and Reel Specifications CF and MF DIMENSIONS (mm), AMMO PACK AND TAPE AND REEL t ± P Ammo Pack max H. max B W L Flange Tape and Reel Hub. Paper mm beginning and end Product Leader A CF MF 99 7 Power Rating / Dimensions (mm) B ± P ±. t (min.) Quantity Per Box Ammo Pack Dimensions (mm) L ± W ± H ± 7 Quantity Per Reel Reel Dim. (mm) A ± / / XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

79 Carbon Composition Resistors CC FEATURES Low inductance Low capacitance Compared with film-type resistors, carbon composition resistors have better pulse endurance characteristics CHARACTERISTICS Item Operating Temperature Range Short Time Overload Effect of Soldering Temperature Cycling Insulation Resistance - C ~ + C ±(.% +.Ω) ±(% +.Ω) ±%,MΩ min. DERATING CURVE.W W 7 / Rated Power Ratio (%) / - Ambient Temperature ( C) PART NUMBERING SYSTEM B J - K Value SERIES, WATTAGE, RANGE OF VALUES, TOLERANCE, VOLTAGE, AND DIMENSIONS d H L H D Watts Standard Range of Values (Ω) Resistance Tolerance Voltage (V) (max.) Working Overload Pulse L Dimensions (mm) D H d BJ /.~M ±%.. 7.± BJ /.~M ±% ±.7 BJ9.~K ±%,,..7 7.±.9 STANDARD STOCKED VALUES (Ω) K.K.K K 7K K K K 9K 7K.M.M K.K.9K K K K K K K K K.M.M K.K.K.K K K K K K 7K 9K.7M...K.K.7K 9.K K K K K 7K K M.M K.7K.K K K 9K 7K K K K.M.9M K.K.K K K K K K K K.M.7M.9.K.K.K K K 7K 9K K K K.M.M XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 79

80 Carbon Composition Resistors CC SURGE RESISTANCE CHARACTERISTICS Charging and Discharging a, pf Condenser for Cycles. R/R (%) a b / Watt a:. MΩ c b: kω c: kω Voltage (kv) R/R (%) Under 7 C kω / Watt / Watt Testing Time (Hrs) RELATIONSHIP BETWEEN LOAD RATIO AND AMBIENT TEMPERATURE LOAD LIFE (RATED LOAD) R/R (%) / Watt a: MΩ b: kω c: kω Voltage (kv) c a b R/R (%) - a = / Watt kω b = / Watt kω c = / Watt MΩ Time Elasped (Month) a b c VARIATION WITH TIME FREQUENCY CHARACTERISTICS R/R (%) - Load Ratio P/Pn =. - - / Watt kω, n =, hours Ambient Temperature ( C) R/R (%) 7 a b. fxr (Mhz-MΩ) RELIABILITY TEST Load Life in Moisture Samples: / Watt, Ω, kω, kω, kω, pieces of each, pieces in total. Conditions: C in 9% RH % hours "ON" and hours "OFF" cycling for, hours with DC voltage given by the following ratios: R/R Criterion (%) ± ± Load Ratio P/Pn (%) Total Total Total Testing Time T(Hrs).9 x.99 x.997 x.99 x.9 x 7. x 7 Number of Failures r (pcs) λ Failure Ratio λcl (%) Average Lifetime (% reliability level) (Hrs).9 x. x 9. x 7.9 x 7.9 x.99 x 7 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

81 Carbon Composition Resistors CC LEAD TAPING (SIZE IN mm). min. ± ø±..±.7.±. ± Less. Craft Tape Glued Tape Less Less.± max. mm.±. 9.± mm XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

82 Metal Oxide Power Resistors MO FEATURES ±% tolerance Excellent flame retardant coating Stable performance in diverse environments High purity ceramic core Meets EIAJ-RCA requirements Other values may be available on request CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Short Time Overload Temperature Cycling Soldering Effect Vibration Moisture Resistance Load Life (, hrs., 7 C) - C ~ + C (derated over 7 C) ±ppm/ C ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) Percent Rated Loaded DERATING CURVE - C 7 C C - Ambient Temperature ( C) PART NUMBERING SYSTEM - K Value / R E E L Suffix Suffix Code: (blank) REEL AP Package: Bulk Tape and Reel Ammo Pack SERIES, SIZE, WATTAGE, RANGE OF VALUES, VOLTAGE, AND DIMENSIONS d H L H D 7 9 Case Size Small Small Small Small Standard Standard Standard Standard Standard Watts (W) 7 Standard Range of Values. ~ M. ~ M. ~ M. ~ K. ~ M. ~ M. ~ M. ~ K ~ K Voltage (V) 7 C Dimensions (mm) Working Overload Withstanding L (max.) D (max.) H ± d +., ,, STANDARD STOCKED VALUES (Ω) K.K.K.K.K.K.K.K.K.K.7K.K.K.K.9K.K.7K.K.K.K.K K.K 9.K K K K K K K K K K K 7K K K K 9K K 7K K K K K 7K K 9K K K K K K K K K K K 7K K K K 9K K 7K K K K K 7K K 9K M XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

83 Metal Oxide Power Resistors MO DIMENSIONS (mm), AMMO PACK AND TAPE AND REEL t ± P Ammo Pack max H. max B W L Flange Tape and Reel Hub. Paper mm beginning and end Product Leader A Dimensions (mm) Case Size Quantity B P t Per Box 7 9 Small Small Small Small Standard Standard Standard Standard Standard Ammo Pack Dimensions (mm) L W H Quantity Per Reel Reel Dim. (mm) A XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

84 Network Resistors SIP FEATURES Miniature, high density packaging Combinations of different ohmic value are available High reliability with RuO paste Recommended wash method is alcohol CHARACTERISTICS Items Operating Temperature Range Temperature Coefficient Range Rating Ambient Temperature Standard Resistance Range Wattage/Element Max. Working Voltage Resistance Tolerance Lead Material - C ~ + C ±ppm: Ω ~ MΩ, ±ppm: <Ω or >MΩ +7 C Ω - MΩ /W V % Steel alloy and weldable Rated Power (%) DERATING CURVE Ambient Temperature ( C) R Common... Circuit Construction Isolated R R... Rn R R... Rn... n+...n- n R = R =... = Rn R = R =... = Rn PART NUMBERING SYSTEM - K Value DIMENSIONS Comm. Isol. 7 9 Number of Pins L max. (mm)... ~ pin configurations available special order. STANDARD STOCKED VALUES (Ω) Dimensions (mm) Pin One Indicated L. max.. ±. ±. ±.. max K.K.K.K K.K.7K.K.9K.7K.K.K.K.K K K K K K K 7K K 9K 7K K K K K K K K K 7K K 9K 7K K K K M XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

85 Cement Power Resistors PRM FEATURES % tolerance Exceptionally small, sturdy, and reliable Sealed with a special cement Excellent moisture resistance High temperature stability Ceramic flame retardant package Recommended wash method is alcohol CHARACTERISTICS Items Wet Load Life Load Life Short Time Overload Temperature Coefficient Effect of Soldering ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) Ω is ±ppm/ C max.; <Ω is ±ppm/ C ±(% +.Ω) DERATING CHART HEAT RISE CHART Percent Rated Load (%) Ambient Temperature ( C) Heat Rise ( C) Rated Load (%) W, 7W, W W W PART NUMBERING SYSTEM ød P R M - Watts K Value W L ± P D SERIES, WATTAGE, VALUE RANGE, AND DIMENSIONS Watts (W) * PRM * PRM * PRM PRM 7 PRM PRMA PRMA * Leads are centered Range of Values (Ω) Dimensions (mm) Wirewound Power Film W ± D ± L ± ød P ±. ~ 7. ~ 9. ~ 7. ~. ~ 9. ~ 7. ~ ~ K ~ K ~ K ~ K 9 ~ K ~ K ~ K STANDARD STOCKED VALUES (Ω) All standard E- values not listed are available special order K K.7K K XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

86 Cement Power PRS FEATURES % tolerance Exceptionally small, sturdy, and reliable Sealed with a special cement Excellent moisture resistance High temperature stability Ceramic flame retardant package CHARACTERISTICS Items Wet Load Life Load Life Short Time Overload Temperature Coefficient Effect of Soldering ±(% +.Ω) ±(% +.Ω) ±(% +.Ω) Ω is ±ppm/ C max.; <Ω is ±ppm/ C ±(% +.Ω) HEAT RISE CHART DIMENSIONS (mm). ± ± 9 ± ±. ±. ± ± PART NUMBERING SYSTEM Welded point ± P R S - K Watts Value SERIES, WATTAGE, VALUE RANGE, AND DIMENSIONS Range of Values (Ω) Dimensions (mm) Watts (W) Wirewound Power Film W ± D ± L ± ød P ± PRS. ~ 7 ~ K.. 9. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

87 Cement Power Resistors PW FEATURES % tolerance Exceptionally small, sturdy, and reliable Sealed with a special cement Excellent moisture resistance High temperature stability Ceramic flame retardant package Recommended wash method is alcohol CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Dielectric Withstanding Voltage Temperature Cycling Short-Time Overload (permanent resistance change) Humidity (steady rate) (temporary resistance change) Load Life in Humidity Load Life (permanent resistance change) - C ~ + C Ω is ±ppm/ C max., <Ω is ±ppm/ C Test methods: natural resistance change per temp. C; [R-R/R(t-t)]x (ppm/ C); R is resis. value at room temp. (t); R is resis. value at room temp.+ C (t); Test pattern is room temp., room temp.+ C. No evidence of flashover mechanical damage, arcing or insulation breakdown. Test method is resistors are clamped in the trough of a 9 metallic V-block and tested at V for +/- seconds. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is five cycles for duty cycle as follows: step at - C ± C for min.; step at room temp. for ~ min.; step at + C ± C for min.; step at room temp. for ~ min. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is the application of a potential of. times RCWV for seconds. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours ( hours on W) exposure in a humidity test chamber controlled at C ± C and 9~9% relative humidity. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" in a humidity test chamber controlled at C ± C and 9~9% relative humidity. RCWV = square root of PR; P = power rating, R = resistance (Ω). ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" at +7 C ± C ambient. Terminal Strength No evidence of mechanical damage. Test methods as follows: Direct Load; resistance to a.kg direct load for seconds in direction of longitudinal axis of the terminal leads. Twist Test; terminal leads are bent through 9 at a point of about mm from the body of the resistor and are rotated through about the original axis of the bent terminal in alternating direction for a total of rotations. Solderability 9% coverage min. Test method is that the area is covered with a new, smooth, clean, shiny and continuous surface free from concentrated pinholes. Test temperature of solder is + C ± C. Time in solder is +./- seconds. Resistance to Soldering Heat ±(% +.Ω) max. with no evidence of mechanical damage. Test method is that the leads are immersed to.~.mm from the body in + C ± C solder for ± seconds. HEAT RISE CHART DERATING CURVE Heat Rise ( C) -W Rated Load (%) W W Percent Rated Load (%) Ambient Temperature ( C) PART NUMBERING SYSTEM C R - K Watts Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 7

88 Cement Power Resistors PW POWER RATING, RANGE OF VALUES, AND DIMENSIONS d H I L I W Watts (W) Range of Values Wire Wound Metal Oxide. ~ 7 ~ K. ~ 9 9 ~ K ~ K.K ~ K ~.K - - N/A - - L ± 9 9 Dimensions (mm) W ± H ± I ± d STANDARD STOCKED VALUES (Ω) K.K.K.K.K.K.K.K.K.K.7K.K.K.9K.7K.K K K K XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

89 Cement Power Resistors PZ FEATURES % tolerance Exceptionally small, sturdy, and reliable Sealed with a special cement Excellent moisture resistance High temperature stability Ceramic flame retardant package Recommended wash method is alcohol CHARACTERISTICS Item Operating Temperature Range Temperature Coefficient Dielectric Withstanding Voltage Temperature Cycling Short-Time Overload (permanent resistance change) Humidity (steady rate) (temporary resistance change) Load Life in Humidity Load Life (permanent resistance change) - C ~ + C Ω is ±ppm/ C max., <Ω is ±ppm/ C Test methods: natural resistance change per temp. C; [R-R/R(t-t)]x (ppm/ C); R is resis. value at room temp. (t); R is resis. value at room temp.+ C (t); Test pattern is room temp., room temp.+ C. No evidence of flashover mechanical damage, arcing or insulation breakdown. Test method is resistors are clamped in the trough of a 9 metallic V-block and tested at V for +/- seconds. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is five cycles for duty cycle as follows: step at - C ± C for min.; step at room temp. for ~ min.; step at + C ± C for min.; step at room temp. for ~ min. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is the application of a potential of. times RCWV for seconds. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours ( hours on W) exposure in a humidity test chamber controlled at C ± C and 9~9% relative humidity. ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" in a humidity test chamber controlled at C ± C and 9~9% relative humidity. RCWV = square root of PR; P = power rating, R = resistance (Ω). ±(% +.Ω) max. with no evidence of mechanical damage. Test method is, hours operating at RCWV with duty cycle of. hours "on", hour "off" at +7 C ± C ambient. Terminal Strength No evidence of mechanical damage. Test methods as follows: Direct Load; resistance to a.kg direct load for seconds in direction of longitudinal axis of the terminal leads. Twist Test; terminal leads are bent through 9 at a point of about mm from the body of the resistor and are rotated through about the original axis of the bent terminal in alternating direction for a total of rotations. Solderability 9% coverage min. Test method is that the area is covered with a new, smooth, clean, shiny and continuous surface free from concentrated pinholes. Test temperature of solder is + C ± C. Time in solder is +./- seconds. Resistance to Soldering Heat ±(% +.Ω) max. with no evidence of mechanical damage. Test method is that the leads are immersed to.~.mm from the body in + C ± C solder for ± seconds. HEAT RISE CHART DERATING CURVE Heat Rise ( C) -W Rated Load (%) W W Percent Rated Load (%) Ambient Temperature ( C) PART NUMBERING SYSTEM P Z - K Watts Value XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

90 Cement Power Resistors PZ POWER RATING, RANGE OF VALUES, AND DIMENSIONS P L T W T D H H P F Watts (W) Dimensions (mm) L ± W ± D ± T ± T ±. H +/- H +/- P F x x x. x. 9 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

91 Aluminum Housed Power Wirewound Resistors HS FEATURES Designed for heat sink mounting Low values, down to.ω Solder, cable, threaded, or fast-on terminations Inductive or low inductance Manufacturing approved to ISO 9 (99) CHARACTERISTICS Item Tolerance Tolerance for Low Ω Values Insulation Resistance Temperature Coefficients Power Dissipation Core Element End caps Encapsulant Housing Terminals ±%, ±% and ±%, other tolerances available upon special request, ask for details.7 is ±%;. is ±%,MΩ min <Ω is ppm/ C; IΩ ~ Ω is ppm/ C; >Ω is ppm/ high ambient temperature: dissipation derates linearly to zero at C Ceramic-steatite or alumina depending on size Copper nickel alloy or nickel chrome alloy Nickel iron or stainless steel High temperature molding compound Anodized aluminum W ~ W is silver plated steel cored copper; W ~ W is brass, stainless steel or copper clad steel PART NUMBERING SYSTEM N H S Low Inductance Winding - Watts (max.) Heat Sink Mounted. Value (Ω) F Tolerance Tolerance Code: F = ±% J = ±% K = ±% TEMPERATURE RISE AND POWER DISSIPATION Surface Temperature of resistor related to power dissipation. The resistor is standard heat sink mounted using a proprietary heat sink compound. Surface Temperature ( C) HS HS HS HS HS7 HS HS HS HS APPLICATION NOTES 7 Power Dissipation (Watts) The ARCOL HS style is a range of high quality, high stability aluminum housed power wirewound resistors designed for direct heat sink attachment. The resistive element is wound onto high thermal conductivity ceramic formers ground to a close tolerance finish ensuring maximum contact for rapid heat transfer. This element is encapsulated in the aluminum housing by a transfer molding process which ensures a good humidity seal and a permanent compression fit. The encapsulant is a high temperature molding compound and the special ARCOL mold tool design ensures accurate concentricity of the resistive element inside the housing giving a high level of voltage protection. Our engineers have years experience in the design and manufacture of this style of resistor and during this period we have produced many different HS types to meet customers special requirements. If you need a special design for your application, be it high voltage, short term overload, special mounting or terminations then please contact us for advice. Heat Dissipation While the use of proprietary heat sinks with lower thermal resistance is acceptable, uprating is not recommended. For maximum heat transfer, it is recommended that a heat sink compound be applied between the resistor base and heat sink/chassis mounting surface. It is essential that the maximum hot spot temperature of is not exceeded and therefore the resistor must be mounted on a heat sink of correct thermal resistance for the power being dissipated. Maximum Overload Please consult the factory for assistance concerning your particular overload application. Further information concerning the internal resistance characteristics of each HS resistor is available on request. XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

92 Aluminum Housed Power Wirewound Resistors HS ELECTRICAL SPECIFICATIONS Watts (max.) Heat Sink Mounted 7 C Without Heat Sink.. 7 Resistance Range (Ω). ~ K. ~ K. ~ K. ~ K. ~ K. ~ 7K. ~ K. ~ 9K. ~ K. ~ K Maximum Working Voltage (DC/ACrms) 9 9 Dielectric Strength AC Peak Stability R% Per Hours Maximum Weight (grams) Surface Temp. Rise C/Watt Std. Heat Sink Mounted Standard Heat Sink (Aluminum) Area CM Thick. (mm) Style MIL-R RE RE RE7 RE7 DIMENSIONS. ±. ø. ±. L HS,,, F E B D J G A Center hole in each flange is in Watts only. L J. ±. ø. Max. HS 7,, = = F E B D G A mm L HS,, = = F E M B D J G A C H K C H K C H K Watts (max.) Heat Sink Mounted 7 A max B max C max D ± E max Dimensions (mm) F ±. G ± H ± J ± K ± L ± M max.... ~ Watts is ±. STANDARD STOCKED VALUES (Ω) K.K K K.K K K K K K W ~ W are made to order. 9 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -

93 Aluminum Housed Power Wirewound Resistors NHS FEATURES Designed for heat sink mounting Non-inductive construction Solder, cable, threaded, or fast-on terminations Usable as audio and RF dummy loads Manufacturing approved to ISO 9 (99) CHARACTERISTICS Item Tolerance Tolerance for Low Ω Values Insulation Resistance Temperature Coefficients Power Dissipation Core Element End caps Encapsulant Housing Terminals Power Rating ±%, ±% and ±%, other tolerances available upon special request, ask for details.7 is ±%;. is ±%,MΩ min <Ω is ppm/ C; IΩ ~ Ω is ppm/ C; >Ω is ppm/ high ambient temperature: dissipation derates linearly to zero at C Ceramic-steatite or alumina depending on size Copper nickel alloy or nickel chrome alloy Nickel iron or stainless steel High temperature molding compound Anodized aluminum W is silver plated steel cored copper; W ~ W is brass, stainless steel or copper clad steel Nominal rating: minute on, minutes off. Continuous rating: rated %. PART NUMBERING SYSTEM N H S -. F Tolerance Code: F = ±% Low Inductance Winding Watts (max.) Heat Sink Mounted Value (Ω) Tolerance J = ±% K = ±% ELECTRICAL SPECIFICATIONS and STANDARD STOCKED VALUES (Ω) Watts (max.) Heat Sink Mounted C Without Heat Sink 7 Resistance Range (Ω). ~ 7K. ~ 9K. ~ K Maximum Working Voltage (DC/ACrms) 9 9 Dielectric Strength AC Peak Stability R% Per Hours Maximum Weight (grams) 7 7 Surface Temp. Rise C/Watt Std. Heat Sink Mounted.7 Standard Heat Sink (Aluminum) Area CM Thick. (mm) Stocked Values..... DIMENSIONS L J L J D. ±. mm C H K ø. Max. NHS G A NHS, G A ~ Watts is ±. F E B F E M B Watts (max.) Heat Sink Mounted A max. B max. C max. D ±. E max. Dimensions (mm) F ±. G ±. H ± J ±. K ± L ±. M max XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () - 9

94 Zinc Oxide Varistors, mm and 7mm VL Zinc oxide varistor is a voltage dependent resistor with symmetrical voltage-current characteristics that is designed to protect all kinds of electronic devices or elements from switching and induced lightning surges. APPLICATIONS IC, diode, transistor, thyristor, triac, and other semiconductor protection Suppression of main-borne transients in consumer electronics and industrial electronics Suppression of internally-generated spikes in electronics circuits Surge protection in communication, measuring and controller electronics Surge protection in electronic home appliances and gas petroleum appliances Relay and semiconductor switch surge absorption V-I Characteristic of Varistor Current (ma) FEATURES Fast response time Low leakage current Excellent voltage ratio Wide voltage and energy ratio Low standby power and no follow-on current High performance in surge current handling capability High performance in clamping voltage characteristics Voltage (V) PART NUMBERING SYSTEM 9 V 7 Voltage (ACrms) Diameter CHARACTERISTICS The varistor's rest state has a high impedance (several megohms) in relation to the component to be protected and does not change the characteristics of the electric circuit. In the presence of transient voltage, (over the breakdown voltage of varistor) the varistor then has a low impedance (a few ohms) and short circuits the assembly E to be protected. Surge suppression of varistor I E Max. withstanding voltage of protected device. Max. clamping voltage of varistor. The real clamping voltage occurred. Varistor voltage. Operating votage of protected device. Ip Rest State E Time Time Protective State DIMENSIONS ød T Diameter (mm) 7 ød max ød LS.. Dimensions (mm) H max.. T max. V ~V ~V ød H LS 9 XICON PASSIVE COMPONENTS ARLINGTON, TX 7 () -