TYPE 173D Solid Tantalum Capacitors Solid-Electrolyte TantaLex Capacitors Axial-Lead, Molded-Case ME 4514812 0020089 771 A-O6b-IROS - A COMPANY OF ng SPRAGUE Vv Improved Type 173D molded-case miniature axial-lead Tantaex capacitors, now available in 5 sizes, are designed for high performance automotive, industrial and commercial electronic equipment. Precision molded in gold colored, flame retardant, thermosetting epoxy resin, units are laser marked for improved legibility, while the tapered end of the case provides easy identification of the positive terminal. Standard orders are lead taped and reeled; orders PERFORMANCE CHARACTERISTICS Operating Temperature: - 55C to + 85C. (To + 125C with valtage derating.) Capacitance Tolerance: At 120Hz, + 25C. + 20%, + 10% standard. + 5% available as special. Dissipation Factor: At 120Hz, + 25C. Dissipation factor, as determined from the expression 2zfRC, shall not exceed the values listed in the Standard Ratings Tables. DC Leakage Current (DCL Max.): At + 25C: Leakage current shall not exceed the values listed in the Standard Ratings Tables. under 500 are taped only. At + 85C: Leakage current shall not exceed 10 times the values listed in the Standard Ratings Tables. At + 125C: Leakage current shall not exceed 15 times the values listed in the Standard Ratings Tables. Life Test: Capacitors shall withstand rated DC voltage applied at + 85C for 2000 hours and for 1000 hours applied at + 125C derated voltage. Following the life test: 1. DCL shall not exceed 125% of the initial requirement. 2. Dissipation Factor shall meet the initial requirement. 3. Change in capacitance shall not exceed + 10%. 0.875 [22.23] L 0.875 [22.23] Min. <_ Min. S| ee D saa Solid a Tapered End Leads Identifies Anode D (Max.) 0.095 [2.41] 0.110 [2.79] 0.180 [4.57] 0.180 [4.57] 0.280 [7.11] L (Max.) 0.260 [6.60] 0.290 [7.37] 0.345 [8.76] 0.420 [10.67] 0.550 [13.97] LEAD DIAMETER 0.020 [0.51] 0.020 [0.51] 0.020 [0.51] 0.020 [0.51] 0.025 [0.64] 178 SPRAGUE, 678 Main Street, Sanford, ME 04073 Phone (207) 324-4140 Fax 207-324-7223TYPE 173D Me 514aic 0020090 443 @ Max. DF Max. DCL @ + 25C CAPACITANCE CASE PART NUMBER* PART NUMBER* @ + 25C 120Hz (uF) CODE CAP. TOL. + 20% CAP. TOL. + 10% (uA) (%) 2 WVDC @ + 85C, SURGE = 2.5 V...1.5 WVDC @ + 125C, SURGE = 1.8 V 6.8 U 173D685xX0002U 173D685X9002U 0.5 10 8.2 U _ 173D825X9002U 0.5 10 10.0 U 173D106X0002U 173D106X9002U 0.5 10 12.0 Vv _ 173D126X9002V 0.5 10 15.0 Vv 173D156X0002V 173D156x9002V 0.5 10 18.0 Vv _ 173D186X9002V 0.5 10 22.0 v 173D226X0002V 173D226xX9002V 0.5 10 27.0 Vv _ 173D276X9002V 0.5 10 33.0 v 173D336X0002V 173D336X9002V 0.5 10 39.0 Ww _ 173D396X9002W 0.6 10 47.0 Ww 173D476x0002W 173D476X9002W 0.8 10 56.0 WwW _ 173D566X9002W 0.9 10 68.0 WwW 173D686X0002W 173D686X9002W 14 10 4WVDC @ + 85C, SURGE =5 V...2.5 WVDC @ + 125C, SURGE =3 V 47 U 173D475X0004U 173D475X9004U 0.5 8 5.6 U _ 173D565X9004U 0.5 8 6.8 U 173D685X0004U 173D685X9004U 0.5 8 8.2 Vv _ 173D825X9004V 0.5 8 10.0 Vv 173D106X0004V 173D106X9004V 0.5 8 12.0 Vv _ 173D126x9004V 0.5 8 15.0 Vv 173D156X0004V 173D156X9004V 0.5 8 18.0 v _ 173D186X9004V 0.6 8 22.0 Vv 173D226X0004V 173D226X9004V 0.7 8 27.0 Ww _ 173D276X9004W 0.9 8 33.0 Ww 173D336X0004W 173D336X9004W 11 8 39.0 Ww _ 173D396XS004W 1.2 8 47.0 Ww 173D476xX0004W 173D476XS004W 1.5 8 56.0 Xx _ 173D566X9004X 15 8 68.0 x 173D686X0004X 173D686X9004X 2.2 8 6 WVDC @ + 85C, SURGE =8 V...4 WVDC @ + 125C, SURGE =5 V 3.3 U 173D335X0006U 173D335X9006U 0.5 4 3.9 U _ 173D395X9006U 0.5 4 4.7 U 173D475X0006U 173D475X9006U 0.5 4 5.6 Vv _ 173D565X9006V 0.5 4 6.8 Vv 173D685X0006V 173D685X9006V 0.5 6 8.2 Vv _ 173D825X9006V 0.5 6 410.0 v 173D106X0006V 173D106X9006V 0.5 6 12.0 v _ 473D126X9006V 0.6 6 15.0 Vv 173D156X0006V 173D156X9006V 0.7 6 18.0 WwW _ 173D186X9006W 0.9 6 22.0 Ww 173D226X0006W 173D226X9006W 14 6 27.0 Ww _ 173D276X9006W 1.3 6 33.0 Ww 173D336X0006W 173D336X9006W 1.5 6 39.0 xX _ 173D396X9006X 1.9 6 47.0 x 173D476X9006X 173D476X9006X 2.3 6 56.0 x _ 173D566X9006X 2.7 6 68.0 Xx 173D686X0006X 173D686X9006X 3.3 6 82.0 Y _ 173D826X9006Y 3.9 8 100.0 Y 173D107X0006Y 173D107X9006Y 438 8 120.0 Y _ 173D127X9006Y 5.0 8 150.0 Y 173D157X0006Y 173D157X9006Y 5.0 8 180.0 Y _ 173D187X9006Y 8.6 8 220.0 Y 173D227X0006Y 173D227X9006Y 10.0 8 270.0 Y _ 173D277X9006Y 10.0 8 330.0 Y 173D337X0006Y 173D337X9006Y 10.0 8 * Part number should include "X5" for + 5% units (special order). SPRAGUE, 678 Main Street, Sanford, ME 04073 Phone (207) 324-4140 * Fax 207-324-7223 179MH 514481e2 00200951 3cT TYPE 173D Max. DF Max. DCL @ + 25C CAPACITANCE CASE PART NUMBER* PART NUMBER* @ + 25C 120Hz (uF) CODE CAP. TOL. + 20% CAP. TOL. + 10% (uA) (%) 10 WVDC @ + 85C, SURGE = 13 V...7 WVDC @ + 125C, SURGE =9 V 2.2 U 173D225X0010U 173D225X9010U 0.5 4 27 U 173D275X9010U 0.5 4 3.3 U 173D335X0010U 173D335X9010U 0.5 4 3.9 Vv 173D395X9010V 0.5 4 47 V 173D475X0010V 173D475X9010V 0.5 4 5.6 V 173D565X9010V 0.5 4 6.8 v 173D685X0010V 173D685X9010V 0.5 6 8.2 Vv 173D825X9010V 0.7 6 10.0 v 173D106X0010V 173D106X9010V 0.8 6 12.0 Ww 173D126X9010W 1.0 6 15.0 w 173D156X0010W 173D156X9010W 1.2 6 18.0 W 173D186X9010W 1.4 6 22.0 w 173D226X0010W 173D226X9010W 1.5 6 27.0 X 173D276X9010X 2.2 6 33.0 X 173D336X0010X 173D336X9010X 2.6 6 39.0 xX _ 173D396X9010X 3.1 6 47.0 X 173D476X0010X 173D476X9010X 3.8 6 56.0 Y 173D566X9010Y 4.4 6 68.0 Y 173D686X0010Y 173D686X9010Y 5.0 6 82.0 Y 173D826X9010Y 5.0 8 100.0 Y 173D107X0010Y 173D107X9010Y 8.0 8 120.0 Y 173D127X9010Y 9.6 8 150.0 Y 173D157X0010Y 173D157X9010Y 10.0 8 180.0 Y 173D187X9010Y 10.0 8 220.0 Y 173D227X0010Y 173D227X9010Y 10.0 8 15 WVDC @ + 85C, SURGE = 20 V...10 WVDC @ + 125C, SURGE = 12 V 1.5 U 173D155X0015U 173D155X9015U 05 4 18 uU = 173D185X9015U 0.5 4 2.2 U 173D225X0015U 173D225X9015U 0.5 4 2.7 V 173D275X9015V 0.5 4 3.3 V 173D335X0015V 173D335X9015V 0.5 4 3.9 Vv 173D395X9015V 0.5 4 4.7 v 173D475X0015V 173D475X9015V 0.6 4 5.6 Vv 173D565X9015V 07 4 6.8 v 173D685X0015V 173D685X9015V 0.8 6 8.2 w 173D825X9015W 1.0 6 10.0 w 173D106X0015W 173D106X9015W 1.2 6 12.0 w 173D126X9015W 1.4 6 15.0 w 173D156X0015W 173D156X9015W 15 6 18.0 x 173D186X9015X 22 6 22.0 x 173D226X9015X 173D226X9015X 2.6 6 27.0 X 173D276X9015X 3.2 6 33.0 X 173D336X0015X 173D336X9015X 4.0 6 39.0 Y 173D396X9015Y 47 6 47.0 Y 173D476X0015Y 173D476X9015Y 5.0 6 56.0 Y _ 173D566X9015Y 67 6 68.0 Y 173D686X0015Y 173D686X9015Y 8.2 6 82.0 Y 173D826X9015Y 9.8 8 100.0 Y 173D107X0015Y 173D107X9015Y 10.0 8 120.0 Y 173D127X9015Y 10.0 8 150.0 Y 173D157X0015Y 173D157X9015Y 10.0 8 20 WVDC @ + 85C, SURGE = 26 V...13 WVDC @ + 125C, SURGE = 16 V 1.0 U 173D105X0020U 173D105X9020U 0.5 4 1.2 U 173D125x9020U 0.5 4 1.5 U 173D155X0020U 173D155X9020U 0.5 4 1.8 v 173D185X9020V 0.5 4 2.2 v 173D225X0020V 173D225X9020V 0.5 4 27 Vv 173D275X9020V 05 4 3.3 Vv 173D335X0020V 173D335X9020V 0.5 4 3.9 Vv 173D395X9020V 0.6 4 * Part number should include "X5" for + 5% units (special order). 180 SPRAGUE, 678 Main Street, Sanford, ME 04073 Phone (207) 324-4140 Fax 207-324-7223M@@ 4514412 0020052 2bb mw TYPE 173D STANDARD: seucel ie SR SEHE SS Seanee pe Uneletaa ie Max. DF Max. DCL @ + 25C CAPACITANCE CASE PART NUMBER* PART NUMBER* @+25C 120Hz (uF) CODE CAP. TOL. + 20% CAP. TOL. + 10% (nA) (%) 20 WVDC @ + 85C, SURGE = 26 V...13 WVDC @ + 125C, SURGE = 16 V 47 Vv 173D475x0020V 173D475X9020V 0.8 4 5.6 Ww 173D565X9020W 0.9 4 6.8 Ww 173D685X0020W 173D685X9020W 1.41 6 8.2 Ww _ 173D825X9020W 1.3 6 10.0 Ww 173D106X0020W 173D106X9020W 1.6 6 12.0 Xx _ 173D126X9020X 1.9 6 15.0 Xx 173D156X0020X 173D156X9020X 2.4 6 18.0 xX _ 173D186X9020X 2.9 6 22.0 Xx 173D226X0020X 173D226X9020X 3.5 6 27.0 Y _ 173D276X9020Y 4.3 6 33.0 Y 173D336X0020Y 173D336X9020Y 5.0 6 39.0 Y _ 173D396X9020Y 6.2 6 47.0 Y 173D476X0020Y 173D476X9020Y 7.5 6 56.0 Y 173D566X9020Y 8.9 6 68.0 Y 173D686X0020Y 173D686X9020Y 10.0 6 82.0 Y 173D826X9020Y 100 6 100.0 Y 173D107X0020Y 173D107X9020Y 10.0 6 25 WVDC @ + 85C, SURGE = 32 V...17 WVDC @ + 125C, SURGE = 21 V 0.47 U 173D474X0025U 173D474xX9025U 0.5 3 0.56 U _ 173D564X9025U 0.5 3 0.68 U 173D684X0025U 173D684X9025U 0.5 3 0.82 U _ 173D824X9025U 0.5 3 1.0 U 173D105X0025U 173D105X9025U Q.5 3 12 v _ 173D125X9025V 0.5 3 1.5 Vv 173D155X0025V 173D155X9025V 0.5 3 1.8 Vv _ 173D185X9025V 0.5 3 2.2 Vv 173D225X0025V 173D225X9025V 0.5 3 27 Vv _ 173D275X9025V 0.5 3 3.3 v 173D335X0025V 173D335X9025V 0.7 3 3.9 WwW _ 173D395X9025W 0.8 3 4.7 WwW 173D475X0025W 173D475x9025W 0.9 4 5.6 Ww _ 173D565X9025W 44 4 6.8 Ww 173D685X0025W 173D685x9025W 1.4 4 8.2 Ww _ 173D825x9025W 1.5 4 10.0 WwW 173D106X0025W 173D106X9025W 1.5 4 12.0 x _ 173D126X9025X 2.4 4 15.0 xX 173D156X0025X 173D156X9025X 3.0 4 18.0 Y _ 173D186X9025Y 3.6 6 22.0 Y 173D226X9025Y 173D226X9025Y 4.4 6 27.0 Y _ 173D276X9025Y 5.4 6 33.0 Y 173D336X0025Y 173D336X9025Y 6.6 6 39.0 Y _ 173D396X9025Y 7.8 6 47.0 Y 173D476X0025Y 173D476X9025Y 9.4 6 35 WVDC @ + 85C, SURGE = 46 V... 23 WVDC @ + 125C, SURGE = 28 V 0.10 U 173D104X0035U 173D104X9035U 0.5 3 0.12 U _ 173D124X9035U 0.5 3 0.15 U 173D154X0035U 173D154X9035U 0.5 3 0.18 U _ 173D184X9035U 0.5 3 0.22 U 173D224X0035U 173D224X9035U 0.5 3 0.27 U _ 173D274X9035U 0.5 3 0.33 Uu 173D334X0035U 173D334X9035U 0.5 3 0.39 U _ 173D394X9035U 0.5 3 0.47 U 173D474X0035U 173D474X9035U 0.5 3 0.56 v _ 173D564X9035V 0.5 3 0.68 Vv 173D684X0035V 173D684X9035V 0.5 3 0.82 Vv _ 173D824X9035V 0.5 3 1.0 Vv 173D105X0035V 173D105X9035V 0.5 3 1.2 v _ 173D125X9035V 0.5 3 1.5 Vv 173D155X0035V 173D155X9035V 0.5 3 1.8 W _ 173D185X9035W 0.5 3 2.2 w 173D225X0035V 173D225X9035V 0.6 3 2.7 w 173D275X9035W 0.8 3 * Part number should include "X5" for + 5% units (special order). SPRAGUE, 678 Mam Street, Sanford, ME 04073 * Phone (207) 324-4140 * Fax 207-324-7223 181TYPE 173D Me 8514812 0020093 1T2 me Max. DF Max. DCL @ + 25C CAPACITANCE CASE PART NUMBER* PART NUMBER* @ + 25C 120Hz CODE CAP. TOL. + 20% CAP. TOL. + 10% (A) (%) 35 WVDC @ + 85C, SURGE = 46 V...23 WVDC @ + 125C, SURGE = 28 V 3.3 Ww 173D335X0035W 173D335X9035W 0.9 4 3.9 Ww _ 173D395X9035W 1.4 4 47 Ww 173D475xX0035W 173D475X9035W 1.3 4 5.6 x _ 173D565X9035X 1.6 4 6.8 x 173D685X0035X 173D685xX9035X 1.9 4 8.2 X _ 173D825X9035X 2.3 4 10.0 x 173D106X0035X 173D106X9035X 2.8 4 12.0 Y = 173D126X9035Y 3.3 4 15.0 Y 173D156X0035Y 173D156X9035Y 42 6 18.0 Y 173D186X9035Y 5.0 6 22.0 Y 173D226X0035Y 173D226X9035Y 6.2 6 27.0 Y _ 173D276X9035Y 75 6 33.0 Y 173D336X0035Y 173D336X9035Y 9.2 6 39.0 Y _ 173D396X9035Y 10.0 6 47.0 Y 173D476X0035Y 173D476X9035Y 10.0 6 50 WVDC @ + 85C, SURGE = 65 V...33 WVDC @ + 125C, SURGE = 40 V 0.10 U 173D104X0050U 173D104X9050U 0.5 3 0.12 U _ 173D124X9050U 0.5 3 0.15 U 173D154X0050U 173D154X9050U 0.5 3 0.18 U _ 173D184X9050U 05 3 0.22 U 173D224X0050U 173D224X9050U 0.5 3 0.27 U 173D274X9050U 0.5 3 0.33 Vv 173D334X0050V 173D334X9050V 0.5 3 0.39 Vv 173D394X9050V 0.5 3 0.47 v 173D474X0050V 173D474X9050V 0.5 3 0.56 Vv _ 173D564X9050V 0.5 3 0.68 Vv 173D684X0050V 173D684X9050V 0.5 3 0.82 Vv _ 173D824X9050V 0.5 3 1.0 v 173D105X0050V 173D105X9050V 0.5 3 1.2 Ww _ 173D125X9050W 0.5 3 1.6 Ww 173D155X0050W 173D155X9050W 0.6 4 1.8 W _ 173D185X9050W 0.7 4 2.2 Ww 173D225X0050W 173D225X9050W 0.9 4 2.7 x _ 173D275X9050X 4 4 3.3 x 173D335X0050X 173D335X9050X 1.3 4 3.9 xX _ 173D395X9050X 1.6 4 47 X 173D475X0050X 173D475X9050X 1.9 4 5.6 Y _ 173D565X9050Y 2.2 4 6.8 Y 173D685X0050Y 173D685X9050Y 2.7 4 8.2 Y 173D825X9050Y 3.2 4 10.0 Y 173D106X0050Y 173D106X9050Y 4.0 6 12.0 Y 173D126X9050Y 5.0 6 15.0 Y 173D156X0050Y 173D156X9050Y 6.0 6 18.0 Y 173D186X9050Y 6.0 6 * Part number should include "X5" for + 5% units (special order). IMPEDANCE IMPEDANCE a a Tes _ ~ ESR 10,F, 10 VDC-V CASE 2 g 3.3,F, 10 VDC-U CASE 5 3 100uF, 10 VDC-Y CASE 1K 10K 100K iM 10M 100M 1K 10K 100K 1M 10M 100M FREQUENCY IN HERTZ FREQUENCY IN HERTZ 182 SPRAGUE, 678 Main Street, Sanford, ME 04073 * Phone (207) 324-4140 Fax 207-324-7223TYPE 173D MB 4514812 0020094 035 ee = Sree De RG oe IMPEDANCE ESR me Sat aT He San Ae we Te T So te a a te se a & a 4, ak OE 2G Bee sw AR 1G Ge 3 ge oe pe al oe ee moe nuit ee IMPEDANCE - ESR ve a pe g 2 22uF, 15 VDC-X CASE = x= 3.3uF, 15 VDC-V CASE 4.7uF, 10V 47uF, 10 68uF, 15 VDC-Y CASE 1K 10K 100K 1M 10M 100M 1K 10K 100K 1M 10M 100M FREQUENCY IN HERTZ FREQUENCY IN HERTZ 100 IMPEDANCE IMPEDANCE ESR ESR 10 g 10uF, 20 VDC-W CASE 2 5 2.2uF, 20 VDC-V CASE 5 4.7uF, 20V 1 47F, 20 VDC-Y CASE 15uF, 20V 01 1K 10K 100K 1M 10M 100M 1K 10K 100K 1M 10M 100M FREQUENCY IN HERTZ FREQUENCY IN HERTZ 100 IMPEDANCE IMPEDANCE _ 7 FSA ESR 10 o 4.7\.F, 35 VDC-W CASE 0.47uF, 35 VDC-U CASE Z : 3 1.0pF, 25 V 3 10uF, 25 V 1 22uF, 35 VDC-Y CASE 01 1K 10K 100K 1M 10M 100M 1K 10K 100K 1M 10M 400M FREQUENCY IN HERTZ FREQUENCY IN HERTZ IMPEDANCE IMPEDANCE ESR ESR o w 4.7F, 50 VDC-X CASE = = 1F, 50 VDC-V CASE = = 3 5 6.8,F, 35 V 10uF, 50 VDG-Y CASE 1K 10K 100K 1M 10M 100M 1K 10K 100K 1M 10M 100M FREQUENCY IN HERTZ FREQUENCY IN HERTZ SPRAGUE, 678 Mam Street, Sanford, ME 04073 Phone (207) 324-4140 Fax 207-324-7223 183TYPE 173D PERFORMANCE CHARACTERISTICS 1. 1.4 3.1 3.2 41 6.1 Operating Temperature: Capacitors are designed to operate over the temperature range of - 55C to + 85C with no voltage derating. Capacitors may be operated to + 125C with voltage derating to two-thirds the + 85C rating. + 85C Rating + 125C Rating Working Surge Working Surge Voltage Voltage Voltage Voltage (Vv) (Vv) (Vv) (V) 2.0 2.5 1.5 1.8 4.0 5.0 2.5 3.0 6.0 8.0 4.0 5.0 10.0 13.0 7.0 9.0 15.0 20.0 10.0 12.0 20.0 26.0 13.0 16.0 25.0 32.0 17.0 21.0 35.0 46.0 23.0 28.0 50.0 65.0 33.0 40.0 DC Working Voltage: The DC working voltage is the maximum operating voltage for continuous duty at the rated temperature. Surge Voltage: The surge DC rating is the maximum voltage to which the capacitors should be subjected under any conditions. This includes transients and peak ripple at the highest line voltage. Surge Voltage Test: The capacitors shail withstand the surge test voltage applied in series with a 1000 ohm + 10% resistor at the rate of one-half minute on, five and one-half minutes off, for 1000 successive test cycles at + 85C. Following the surge voltage test, the dissipation factor shail meet the initial requirements; the capacitance shall not have changed more than + 10%; the leakage current shail meet the initial requirement at + 25C. Capacitance Tolerance: The capacitance of all capacitors shall be within the specified tolerance limits of the nominal rating. Capacitance measurements shall be made by means of a polarized capacitance bridge. The polarizing voltage shall be of such a magnitude that there shall be no reversal of polarity due to the AC component. The maximum voltage applied to the capacitors during measurement shall be 2 volts rms at 120Hz at + 25C. if the AC voltage applied is less than one-half volt rms, no DC bias is required. The measurement accuracy of the bridge shall be within + 2%. Capacitance Change With Temperature: The capacitance change with temperature shall not exceed the following percentage of the capacitance measured at + 25C. + 85C + 10% - 55C - 10% + 125C + 12% Dissipation Factor: The dissipation factor as determined from the expression 2afRC, shall not exceed the value listed in the Standard Ratings Tables. Measurements shall be made by the bridge method at, or referred to, a frequency of 120Hz and a temperature of + 25C. Me 85144812 0020095 T7S Leakage Current: Measurements shall be made at rated working voltage at + 25C + 5C, with an application of a steady source of power (such as a regulated power supply) with a 1000 ohm resistor connected in series with the capacitor under test to limit the charging current. Rated working voltage shall be applied to capacitors for 5 minutes before making leakage current measurements. Units must be stabilized at the rated temperature for 30 minutes prior to the application of voltage. Note that leakage current varies with applied voltage. See graph below for the appropriate factor. + 25C 08 0.1 008 007 0.06 0.05 0.04 0.03 0.02 LEAKAGE CURRENT FACTOR 0.01 0.008 0.007 0.006 0.005 0 004 0 003 0.002 0.001 0 i0 20 30 40 50 60 70 80 90 100 PERCENT OF RATED VOLTAGE 7.1 7.2 8.1 At + 25C, the leakage current shall not exceed the maximum value specified in the Standard Ratings Tables for a given capacitor. At + 85C, the maximum leakage current for any capacitor shall not exceed 10 times the value listed for each capacitor when measured at the appropriate voltage. Life Test: Capacitors shall be capable of withstanding a 2000 hour life test at the + 85C rated DC working voltage or a 1000 hour life test at the + 125C derated working voltage. Following the life test, the leakage current shall not be more than 125% of the initial requirements; the dissipation factor shall meet the initial requirements; the capacitance at + 25C shall not have changed by more than + 10% from the initial value. Reverse Voltage Characteristics: A reverse voltage (one whose polarity is opposite that intended for the capacitor) may be tolerated by these units as described in Paragraph Numbers 9.1 and 9.2. 184 SPRAGUE, 678 Main Street, Sanford, ME 04073 * Phone (207) 324-4140 * Fax 207-324-7223TYPE 173D PERFORMANCE CHARACTERISTICS (Continued) 9.1 At+ 25C, these capacitors shall withstand a voltage 13. reversal of 10% of their rated voltage or 1 volt, 13.1 whichever is greater (e.g.: a6 volt unit shall withstand . a voltage reversal! of 1 volt and a 35 volt unit shall withstand a voltage reversal of 3.5 volts). 9.2 At+ 85C, these capacitors shall withstand a voltage reversal of 5% of their rated voltage or one-half volt, whichever is greater (e.g.: a 6 volt unit shall withstand a voltage reversal of one-half volt and a 35 volt unit shall withstand a voltage reversal of 1.75 volt). 10. Thermal Shock: Capacitors shall be capable of withstanding thermal shock over the temperature range of - 55C to + 85C. 10.1 This test involves subjecting the capacitors to temperatures ranging from room temperature to - 55C and return and then to + 85C and return. The capacitors are subjected to the temperature extremes for 30 minutes during each of 5 temperature cycles. 10.2 Following the thermal shock test, the capacitors shall meet the initial requirements of capacitance, dissipation factor and DC leakage current. 11. Humidity Test: After exposure for a period of 1000 hours to an atmosphere of 90% to 95% relative humidity at rated voltage and a temperature of + 55C, 15. the capacitance shall not have changed by more than + 12%); the dissipation factor shall not be more than 150% of the initial requirement; the leakage current shall not be more than 200% of the initial requirement. 12. Pull Test: The leads shall withstand a tensile strength of 3 pounds (13.2 N) applied in any direction for 30 seconds. 13.2 13.3 ME 4S5u4ane OGe0056 50] mm Marking: Capacitors shall be marked as follows. Case Codes U and V: The capacitance code as shown in the How to Order; the capacitance tolerance code (J =+5%, K=+ 10%, M=+ 20%); the DC voltage; the polarity; a 3-digit date code; Sprague or . Case Codes W, X and Y: The capacitor type (173D); capacitance code as shown in How to Order; capacitance tolerance code (J =+ 5%, K=+ 10%, M = + 20%); the DC voltage; the Polarity; a 4-digit date code (Year and Week); Sprague or . Sprague reserves the right to furnish capacitors of higher working voltages than those ordered, where the physical size of the higher voltage units is identical to that of the units ordered. Resistance to Solvents: These capacitors are encapsuiated in thermosetting resin. Capacitor identification markings are in a heat-cured epoxy ink or laser imprint which conforms to EIA Standard RS-327A. The marked units are compatible with Class 1 (alcohols), Class 2 (aromatic hydrocarbons), Class 3 (mineral spirits), Class 4 (chlorinated hydrocarbons) and Class 5 (fluorocarbon methylene chloride azeotropes) solvents. Wave Soldering Compatibility: Capacitor leads may be subjected to a 10 second immersion in molten solder at a temperature of + 260C up to a distance of not less than 0.1" [25.4] from the capacitor body. The physical integrity of the capacitor shall not be impaired and its capacitance, dissipation factor and leakage current shall be within the initial requirements after such exposure. GUIDE TO APPLICATION 1. A-C Ripple Current: The maximum allowable 3. ripple current shall be determined from the formula: i. [PP ms = Reser where, 4. P = Power Dissipation in Watts @ + 25C as given in the table in Paragraph Number 5 (Power Dissipation). Resr = The capacitor Equivalent Series Resistance at the specified frequency. 2. A-C Ripple Voltage: The maximum allowable ripple voltage shall be determined from the formula: P Vims =Z/ Resa 5 or, from the formula: Vems = Itms X Z where, P = Power Dissipation in Watts @ + 25C as given in the table in Paragraph Number 5 (Power Dissipation). Resa = The capacitor Equivalent Series Resistance at the specified frequency. Z = The capacitor Impedance at the specified frequency. 2.1 The sum of the peak AC voltage plus the DC voltage shall not exceed the DC voltage rating of the capacitor. 2.2 The sum of the negative peak AC voltage plus the applied DC voltage shall not allow a voltage reversal exceeding 10% of the DC working voltage at + 25C. Reverse Voltage: These capacitors are capable of withstanding peak voltages in the reverse direction equal to 10% of the DC rating at + 25C and 5% of the DC rating at + 85C. Temperature Derating: If these capacitors are to be operated at temperatures above + 25C, the permissible rms ripple current or voltage shall be calculated using the derating factors as shown: Temperature Derating Factor + 25C 1.0 + 55C 0.8 + 85C 0.6 + 125C 0.4 Power Dissipation: Power dissipation will be affected by the heat sinking capability of the mounting surface. Non-sinusoidal ripple current may produce heating effects which differ from those shown. It is important that the equivalent /rms value be established when calculating permissible operating levels. Maximum Permissible Power Dissipation Case @ + 25C (Watts) Code in free air U 0.070 0.080 0.095 0.110 0.160 <xs< SPRAGUE, 678 Main Street, Sanford, ME 04073 * Phone (207) 324-4140 Fax 207-324-7223 185MB 6544812 0020097 aya me TYPE 173D x9 006 U 2 CAPACITANCE CAPACITANCE DC VOLTAGE RATING CASE CODE STYLE NUMBER TOLERANCE AT + B5C This is expressed in picofarads. The first XO = + 20% This is expressed in volts. To See Ratings 2 = Insulated two digits are the significant figures. The X9=+ 10% complete the three-digit block, and Case sleeve third is the number of zeros to follow. X5=+5% zeros precede the voltage rating. Codes Table. r mlageni ey ro ek WS Bek es i i) ee oe we & TAPE AND REEL PACKAGING (0 43 [330.2] Dia. AY Standard Reel [7 >~ (tb) p< Component Overalt . >| Length (1.b) < Tape 1.126 to 3.07 | Spacing [28.6 to 78.0) LD. Reel Hub | + oa Wel! orn) py} LY 6) ___ ff 1.374 to 3.626 \ A ce & [34.9 to 92.1] }__{-}- 1 Ty 4 +--+ 0.047 [1.19] Max. 0.625 + 0.062 a i. | Y Off Center (1.a) (15.88 + 1.57] = A Dia. Thru Hol {|< tae ira tore L, . i19. og) Lk >||< 0.031 [0.78] Max. Label (4.a) A , SECTION "A" -"A" > Case Units Per Reel__| COMPONENT SPACING | TAPE SPACING 9.250 [6.35] (3.6) Code | Minimum | Maximum A B ~ 0,031 [0.79] (3.f) U 1000 6000 (Both Sides) (3.f) Vv 1000 4000 0.200 + 0.015 Ww 1000 3000 [5.08 + 3.81] 2.062 + 0.062 x 7000 3000 [52 3741.57] [Numbers in brackets indicate millimeters] Y 500 900 0 400 + 0.015 a . . [10.16 +3.83] Note: Quantities less than minimum will be taped but not reeled. STANDARD REEL PACKAGING INFORMATION 1. Component Leads: g. Staples shall not be used for splicing. Not more than a. Component leads shall not be bent beyond 0.047" 4 layers of tape shall be used in any splice area and [1.19] maximum from their nominal position when no tape shall be offset from another by more than measured from the leading edge of the component 0.031" [0.79] non-cumulative. Tape splices shall lead at the inside tape edge and at the lead egress overlap at least 6" [152.4] for butt joints and at least from the component. 3" [76.2] for lap joints and shall not be weaker than b. The 'C' dimension shall be governed by the overall unspliced tape. Universal splicing clips may also be length of the reel packaged component. The distance used. between flanges shall be 0.125" to 0.250" [3.18 to ; 6.35] greater than the overall component length. h. Quantity per reel shall be controlled so that tape components and cover shall not extend beyond the 2. Orientation: smallest dimension of the flange (either across flats or a. All polarized components must be oriented to one direction. The cathode lead tape shall be a color and diameter). Once the quantity per reel for each part the anode lead tape shail be white. number has been established, future orders for that 3. Reeling: part number shall be packaged in that quantity. a. Components on any reel shail not represent more than When order or release quantity is less than the two date codes when date code identification is established quantity, a standard commercial pack is to required. be used. b. Component leads shall be positioned between pairs of i. Amaximum of 0.25% of the components per reel 0.250" [6.35] tape. . quantity may be missing without consecutive missing c. The disposable reels have hubs with corrugated components. fiberboard flanges and core. ; ; d. Aminimum of 12" [304.8] leader of tape shall be j. Adequate protection must be provided to prevent provided before the first and after the last component physical damage to both ree! and components during on the reel. shipment and storage. e. 50 to 60 Ib. Kraft paper must be wound between layers = 4, Marking: of components as far as necessary for component protection. Width of paper to be 0.062" to 0.250" a. Minimum reel and carton marking shall consist of the {1.57 to 6.35] less than the 'C' dimension of the reel. following: Customer Part Number, Purchase Order f. Row components must be centered between tapes No., Quantity, Package Date, Manufacturer's name, + 0.047" [1.19]. In addition, individual components may Electrical Value, Date Code, Sprague Part Number deviate from center of component row + 0.031" [0.79]. and Country of Origin. 186 SPRAGUE, 678 Main Street, Sanford, ME 04073 Phone (207) 324-4140 * Fax 207-324-7223